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Department Application Bronze and Silver Award
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ATHENA SWAN BRONZE DEPARTMENT AWARDS
Recognise that in addition to institution-wide policies, the department is working to promote gender
equality and to identify and address challenges particular to the department and discipline.
ATHENA SWAN SILVER DEPARTMENT AWARDS
In addition to the future planning required for Bronze department recognition, Silver department
awards recognise that the department has taken action in response to previously identified
challenges and can demonstrate the impact of the actions implemented.
Note: Not all institutions use the term ‘department’. There are many equivalent academic groupings
with different names, sizes and compositions. The definition of a ‘department’ can be found in the
Athena SWAN awards handbook.
COMPLETING THE FORM
DO NOT ATTEMPT TO COMPLETE THIS APPLICATION FORM WITHOUT READING THE ATHENA SWAN AWARDS HANDBOOK.
This form should be used for applications for Bronze and Silver department awards.
You should complete each section of the application applicable to the award level you are applying
for.
Additional areas for Silver applications are highlighted
throughout the form: 5.2, 5.4, 5.5(iv)
If you need to insert a landscape page in your application, please copy and paste the template page
at the end of the document, as per the instructions on that page. Please do not insert any section
breaks as to do so will disrupt the page numbers.
WORD COUNT
The overall word limit for applications are shown in the following table.
There are no specific word limits for the individual sections and you may distribute words over each
of the sections as appropriate. At the end of every section, please state how many words you have
used in that section.
We have provided the following recommendations as a guide.
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Department application Bronze Silver
Word limit 10,500 12,000
Recommended word count
1.Letter of endorsement 500 500
2.Description of the department 500 500
3. Self-assessment process 1,000 1,000
4. Picture of the department 2,000 2,000
5. Supporting and advancing women’s careers 6,000 6,500
6. Case studies n/a 1,000
7. Further information 500 500
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Name of institution University of Liverpool
Department School of Physical Sciences
Focus of department STEMM
Date of application Nov. 2016
Award Level Silver
Institution Athena SWAN award Date: 2013 Level: Bronze
Contact for application Must be based in the department
Prof. Ronan McGrath
Email [email protected]
Telephone 0151 7958142
Departmental website https://www.liverpool.ac.uk/physical-sciences/
1. LETTER OF ENDORSEMENT FROM THE HEAD OF DEPARTMENT
Recommended word count: Bronze: 500 words | Silver: 500 words
An accompanying letter of endorsement from the head of department should be included. If the head
of department is soon to be succeeded, or has recently taken up the post, applicants should include
an additional short statement from the incoming head.
Note: Please insert the endorsement letter immediately after this cover page.
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Prof. Ronan McGrath,
Head of the School of Physical Sciences. Dear Athena SWAN panel, As Head of School I am delighted to present our Athena SWAN silver award application. I fully endorse the principles of equity and fairness of opportunity championed by Athena SWAN, and in demonstration of my commitment I have chaired the group which has developed this application and the accompanying action plan. Our shared vision is to create an environment where the choice of a career as an academic woman scientist or academic administrator comes without the need to compromise on other aspects of work-life balance or wellbeing. We also aspire to be sector-leading in this area of our activity. The School’s Equality and Diversity Committee has been responsible for ensuring that the Athena SWAN Bronze actions were implemented. We believe we have made very substantial progress, and the evidence to justify this statement is to be found throughout the document. Some representative impacts arising from our action plan activities are:
Since our Bronze award the proportion of permanent female Teaching and Research appointments in the School has more than doubled from 14.5% to 35%; 7 out of 20 appointments have been female compared 2 out of 20 in the two previous years.
Successful promotions of female academic staff in 2014 and 2015 (45% of total, compared to 15% of the total in the two prior years);
Establishment of a School Researcher forum, represented on our Leadership team, and a development programme for PDRAs;
E&D activities to encourage girls into science; such as our sponsored trip to the European Synchrotron Radiation Source in Grenoble;
Higher proportions of women speakers in our seminar programmes;
Women colleagues nominated for internal and external awards, including two short-listed for the “Women of the Future Awards” in 2015 and 2016;
Female representation on all selection and interview panels and on senior school and departmental committees.
We have also noted some areas where progress has been slow, and have identified new challenges to be faced. For example several of the actions proposed focus on improving the working environment of post-doctoral staff. These are documented in our application and accompanying action plan, along with our updated previous action plan. I have allocated a dedicated budget to Equality and Diversity committee (£10k per year). Resource is also available through other channels – for example the budgets of seminar organisers have been extended to help with gender balance, and a proportion of our HR lead Ian Bamber’s time (10%) will continue to be allocated to help co-ordinate our programme.
In summary, we are proud of the substantial progress made in the past two and a half years. We have put in place a new action plan which will take us forwards towards our ambition of being a beacon School for this University, and to be a sector leader and a Gold Award holder in due course. Finally, I verify that the information included in this application is an honest, accurate and true representation of the School.
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Yours sincerely,
(501/500 words)
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2. DESCRIPTION OF THE DEPARTMENT
Recommended word count: Bronze: 500 words | Silver: 500 words
Please provide a brief description of the department including any relevant contextual information.
Present data on the total number of academic staff, professional and support staff and students by
gender.
Note: This application is being made under the post-May 2015 guidelines. We include completed Bronze action plan as it is referenced throughout the text.
Acronyms, Benchmarks and Highlights:
Surveys An overview of our survey methodology is presented in Section 3. Survey results are referenced throughout the text; improvements over 2014 responses are shown in green while adverse changes are shown in red.
Benchmarks Benchmarks are sourced from HESA data and are quoted for the latest available year.
PDR Professional development and review, the University’s annual appraisal process
T&R Teaching and Research career path – traditional “lecturer” route T&S Teaching and Scholarship career path – parallel “lecturer” route since 2010 Academic staff T&R and T&S staff R Researcher career path, including PDRAs PDRA Post-doctoral research assistant
Action point Refers to a completed Action from the Bronze Award action plan and is
also highlighted by A in the right-hand margin
Impacts
Other impacts are denoted by the symbol
Challenges Challenge points which we assess as needing action are denoted by a warning symbol.
Action Refers to a new Action for the Silver action plan. Colour coding Tables – F:yellow, M:blue; Figures – F:red, M:blue.
Some major impact and good practice narratives are highlighted in boxes.
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Description of the School:
The University of Liverpool has three Faculties: Health and Life Sciences, Science and Engineering, and Humanities and Social Sciences. The School of Physical Sciences is one of four constituent Schools of the Faculty of Science and Engineering. The School was formed from the three departments of Chemistry, Mathematical Sciences and Physics in 2010. It is the
largest School in the Faculty (134 academic staff, 40% of Faculty academic staff) and is the second-largest in the University in terms of staff numbers and research income (e.g. 22% of University research spend in 2013-14). We have 358 staff members in total, and over 2200 students.
Heads of Department have line management responsibility for academic and research staff. Each department has research and teaching sub-structures. Head of Department posts are held for 5 years (renewable) in external competition.
Following the establishment of the Schools in 2010, professional services are organised at School level rather than by department. The lead for School professional services (the School Manager) is Mrs. Louise Hobson. 4 of the 6 professional services team leaders are also female. Figure 2.1 shows a schematic of the School structure. The main committee is the Physical Sciences leadership team, and the diagram indicates the formal and informal subgroups. Female colleagues with lead roles at School level are highlighted in yellow.
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Figure 2.1: The School organisational structure.
There are two academic pathways, Teaching and Research, and Teaching and Scholarship. Table 2.2 gives some overview data on the numbers of academic and professional services staff and students in the School at the time of submission.
Emma Swanston
Physical Sciences Leadership Team and sub-groups
Mike Wormald
Clean-room Services
Vicki Reynolds
Student Services
Gillian McLaren
Chemistry committees
(section 5.6)
Female lead
Male lead
Technical Services
McCormack/Muskett
Prof. Rick Cosstick
Prof. Ronan McGrath Head of School
Louise Hobson
School Manager
Jane Remmer
Management ServicesFinance
Research Services
Prof. Nick GreevesL&T
(section 5.6)
Learning and Teachinggroup
HoD Chemistry
HoD Physics
Prof. Carsten Welsch
Prof. Kurt Langfeld
HoD Mathematics
Maths committees
(section 5.6)
Physics committees
Research cluster leaders
Prof. Chris LucasResearch
Equality and Diversity
Research Strategygroup
Athena SWAN
SAT
Dr. Kamila Zychaluk
Equality and Diversity
Internationalisation
Dr. Tony Lopez-Sanchez
group
Dr. Samantha Colosimo Researcher
Researcher Rep. Forum
Dr. Andy Boston School PGT
PGT Group
Dr. Neil Berry School PGR
PGR Group
Prof. Helen Aspinall Outreach
Outreach Team
Prof. Rasmita Raval KE & Impact
KE & Impact Group
Ian Bamber Alumni
Comms/Alumni Team
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Table 2.2: Summary data for student and staff numbers.
In Fig. 2.2 we plot these data for the School – this gives a preview of the gender pipeline. We will comment further on these numbers and associated trends in Section 4 below.
Figure 2.2: Student and staff numbers by gender (July 2016 snapshot).
(518/500 words)
Male Female %Female Male Female %Female
UG 1149 717 38% UG 257 178 41%
PGT 74 44 37% PGT 3 0 0%
PGR 172 70 29% PGR 76 29 28%
Research 98 31 24% Research 69 25 27%
T&R staff 109 18 14% T&R staff 34 5 13%
T&S staff 4 3 43% T&S staff 3 2 40%
Professional
Services39 36 48%
UG 633 484 43% UG 259 55 18%
PGT 18 12 40% PGT 53 32 38%
PGR 38 17 31% PGR 58 24 29%
Research 10 2 17% Research 61 11 15%
T&R staff 38 8 17% T&R staff 37 6 14%
T&S staff 1 0 0% T&S staff 0 0 -
Maths Phys
School Chem
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3. THE SELF-ASSESSMENT PROCESS
Recommended word count: Bronze: 1000 words | Silver: 1000 words
Describe the self-assessment process. This should include:
(i) a description of the self-assessment team
(ii) an account of the self-assessment process
(iii) plans for the future of the self-assessment team
(i) The Self-Assessment Team
In assembling the SAT, attention was paid to a number of factors: representation of diverse groups in the School, balance of early career and senior colleagues, line management is engagement and gender balance.
Mr Ian Bamber is the School’s Human Resources contact. He oversees School communications. He conducted the Professional Services survey and associated analysis. Ian has 2 children.
Dr Corina Constantinescu is Director of our Institute for Financial and Actuarial Mathematics and is an elected member of the University Senate. She co-developed the action plans for Bronze and Silver.
Professor Rick Cosstick is Head of the Department of Chemistry. He is responsible for implementation of E&D in Chemistry.
Dr Yvonne Gründer is a Royal Society Research Fellow in Physics. She is the chair of the Department’s Juno committee (see Section 7).
Dr Laura Harkness-Brennan is a lecturer in nuclear Physics. She has participated in the Aurora Women in Leadership programme and promotes gender-balanced outreach and recruitment activities.
Mrs Louise Hobson is the School Manager with responsibility for professional services and has had oversight of these elements of the application. She has two children.
SAT (A-M): Ian Bamber, Corina Constantinescu, Rick Cosstick, Yvonne Gründer, Laura Harkness-Brennan, Louise Hobson, Kurt Langfeld, Kostas Mavrokoridis, Ronan McGrath
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Professor Kurt Langfeld is the Head of the Department of Mathematical Sciences. He is married with two children. He joined the University in July 2016.
Professor Ronan McGrath is the Head of the School. He chairs the Equality and Diversity Team and the SAT. He is married with four children.
Dr Kostas Mavrokoridis is a lecturer in Physics and a European Research Council fellow. He coordinates the Equality and Diversity group within the Physics.
Ms. Mona Omir is a PhD student in Chemistry, and represents the views of PhD students.
Ms. Jane O’Neill is a PhD student in Applied Maths, and represents the views of Maths PhD students.
Dr Gita Sedghi is a T&S senior lecturer in Chemistry. She is a member of the University Wellbeing Project Group. She conducts research into internationalisation and peer-assisted learning. She coordinated case studies for the SAT. Dr. Özgür Selsil is a lecturer in Mathematical Sciences. He has four children. He co-developed the action plans for Bronze and Silver.
Dr Anna Slater is a PDRA in Chemistry. She will shortly begin an independent Research Fellowship. She led the development of a School Postdoctoral Forum, and has designed the surveys for the Athena SWAN application. She has one daughter and is the subject of one of our Case Studies.
Dr Helen Vaughan is a T&S Physics lecturer. Helen has organised large-scale widening participation outreach and recruitment activities on behalf of the School.
Prof. Carsten Welsch is Head of the Physics Department. He coordinates several EU Network projects. He has been responsible for developing innovative PGR training in the School. He has 2 children.
The SAT at work.
SAT (O-Z): Mona Omir, Jane O’Neil, Gita Sedghi, Ozgur Selsil, Anna Slater, Helen Vaughan, Carsten Welsch, Kamila Zychaluk
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Dr Kamila Zychaluk is a Lecturer in the Statistics. She has one daughter and is working part-time (0.8 FTE). Kamila is the School lead and represents us on Faculty and University Equality and Diversity committees. (ii) The self-assessment process
The School established an Equality and Diversity Committee in 2012. The Athena SWAN SAT was formed in March 2013 as a sub-group. The SAT developed the application for our Bronze award which was submitted in April 2014. Since then, the group has met on 14 occasions, and also been represented at 6 Faculty and 8 University Athena SWAN meetings.
Two innovative elements of the work of the SAT are:
The establishment of an Athena SWAN supporters group in the School. This group is called upon to mobilise staff and students to support events and to help with survey and compulsory training completion. The group is shown in Table 3.1.
Our Athena SWAN Diary, located in a shared on-line space which allowed all members of the team to continuously provide updates on actions and impacts.
Table 3.1: Athena SWAN supporters group.
Surveys: In June 2016 we received the results of our second School-wide survey. This was sent to PGR students, PDRA staff, Academic staff, and, for the first time, Professional Services staff, with the questions adapted for each staff grouping. This enabled us to make comparisons against our 2014 survey. Table 3.1 shows the participation rates. Though the response rates are not as high as we would like, for each grouping there are at least 40 responses.
Dr. Sue Barlow Academic Chemistry
Dr. Rachel Bearon Academic Maths
Dr. Marielle Chartier Academic Physics
Prof. Andy Cooper Academic Chemistry
Dr. Cate Cropper Academic Central Teaching Lab
Prof. Tim Greenshaw Academic Physics
Dr. Helen Hayward Postdoc Physics
Shu Huo UG student Maths
Ewan Johnstone PGR student Maths
Dr Konstantin Luzyanin Professional Services School
Annette Pressman PGR student Physics
Prof. Rasmita Raval Academic Chemistry
Jane Remmer Professional Services School
Prof. Lasse Rempe-Gillen Academic Maths
Prof. Peter Weightman Academic Physics
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Table 3.1: 2016 surveys: responses in each staff category by department and gender. Respondents who did not provide their gender are counted in the ‘total’ column.
The surveys in general show positive improvement in satisfaction and attitudes, particularly for academic staff. For research staff and PGR students, the results are mixed, and actions to improve the working lives of post-doctoral researchers and PGR students form a major theme of the Silver Action Plan. As an example of the survey analysis, and to highlight our approach throughout the document of evidencing the impact of our actions, we focus on awareness of Athena SWAN and E&D in the School. The SAT organised several awareness-raising activities including:
November 2014 “Celebration of Women in the Physical Sciences”
May 2015: Research Leadership – Prof Andy Cooper
December 2015 – Undergraduate student event – “Becoming a PhD research student”
May 2016 – Prof. D. Vvedensky –Imperial Physics – “Achieving a Silver award”.
Staff in the School are kept informed of progress via the School’s newsletter, through the School’s Researcher Forum and in drop-in consultation events. We also have a dedicated Athena SWAN page on our website.
These events are generally very well appreciated. For example, after the “Celebration” event, 20 attendees signed up to a mailing list for future events. Following these actions, the percentage of staff who completed the University’s Equality and Diversity on-line training went up from 13.5% in June 2014 to 85% in Oct. 2016 Our surveys provide further evidence of impact: Figs. 3.1 and 3.2 illustrate responses and analysis on this issue:
Total
% of
eligible
population
F M F M F M
PGR 4 13 9 8 8 12 57 24%PDRA 12 16 1 2 7 7 47 34%
Academic 6 15 5 5 3 13 52 39%Professional
Services9 4 4 0 9 0 43 57%
Chem Maths Physics
A
15
Figure 3.2: PGR (top) PDRA (middle) and academic staff (bottom) responses to ‘I am aware of the School’s Athena SWAN application”. Left side: Jan. 2014 responses, Right side: May 2016.
We conclude that our actions have been very successful in impacting on awareness of Diversity and Equality and Athena SWAN issues.
Figure 3.1: Professional services staff responses to “I am aware of the School’s Athena SWAN application”.
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The team has developed its competences. Ozgur Selsil and Jane O’Neill attended a London Mathematical Society workshop on “Applying for Athena SWAN: beyond Bronze” in Nov. 2015. Yvonne Gründer and Kostas Mavrokorides attend a workshop on “Unconscious Bias” at the University of Loughborough in Nov. 2015. Team members have undertaken University training on unconscious Bias. They have subsequently helped raise awareness of the critical importance of this phenomenon in the School – for example
it was employed in evaluating the winners of our PDRA Collaboration Award (see p. 52).
(iii) The future of the self-assessment team
The Equality and Diversity Committee will incorporate the SAT and will meet every two months to monitor progress. This will be reported to the School Leadership Team and any difficulties or delays will be addressed. Updates from the University and Faculty steering groups will also be reported to our School Leadership Team.
The group will continue to organise events which raise the profile of Athena SWAN. For example, in February 2017, the School will host a seminar by Dame Professor Athene Donald, talking about her experiences as a woman physicist.
We also wish to be involved in supporting the Athena SWAN principles and sharing good practice more widely. We have already contributed in this way, commenting on the Bronze application of the School of Environmental Sciences, and one of us has acted as an internal reviewer of draft applications. Two of the team have served on Athena SWAN assessment panels, and a third will serve in 2017.
Action 3.1: We will increase involvement in beacon activities, supporting other areas in their Athena SWAN aspirations. The team will support the School of Law and Social Justice as they prepare their first application. The HoS is involved in a European Scientific Network and will draw on international good practice in this area.
Other issues remain on our agenda. Following the publication of the Report by the Universities UK Taskforce in October 2016 examining violence against women, harassment and hate crime affecting university students, the E&D committee will be considering a School response. The E&D group also prompted the University to organise sessions with immigration lawyers for EU staff and their families post-Brexit.
We are also ambitious to have a national profile in this area, by working with subject professional bodies and research councils. This is discussed further in later sections.
Dmitri Vvedensky (Imperial) “Achieving a Silver Award” lecture, May 2016
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(1448/1000)
AS consultation event to mark International Women’s Day 2016.
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4. A PICTURE OF THE DEPARTMENT
Recommended word count: Bronze: 2000 words | Silver: 2000 words
4.1. Student data If courses in the categories below do not exist, please enter n/a
(i) Numbers of men and women on access or foundation courses
The University recruits to Foundation courses through the Faculty and they are delivered by a partner organisation, Carmel College. Table 4.1 gives numbers on Foundation courses by method of study and gender. In general, the number of part-time students is less than 5% of the total.
Table 4.1: Foundation courses by gender for the past five years.
Therefore in Fig. 4.1 we combine the numbers for part-time and full-time students and compare them to HESA data for 2013-14.
Figure 4.1: The number and percentage of Foundation (FT+PT) students by gender. Right-hand column: HESA data (2013-14).
M F % F M F % F M F % F M F % F M F % F
FT 20 9 31 36 6 14 37 15 29 35 11 24 47 14 23
PT 1 0 0 2 0 0 1 0 0 5 0 0 8 0 0
Total 21 9 30 38 6 14 38 15 28 40 11 22 55 14 20
FT 6 3 33 12 1 8 10 6 38 14 3 18 12 7 37
PT 1 0 0 0 0 0 0 0 0 1 0 0 3 0 0
Total 7 3 30 12 1 8 10 6 38 15 3 17 15 7 32
FT 4 4 50 4 3 43 8 5 38 3 3 50 17 6 26
PT 0 0 0 1 0 0 1 0 0 3 0 0 2 0 0
Total 4 4 50 5 3 38 9 5 36 6 3 33 19 6 24
FT 10 2 17 20 2 9 19 4 17 18 5 22 18 1 5
PT 0 0 0 1 0 0 0 0 0 1 0 0 3 0 0
Total 10 2 17 21 2 9 19 4 17 19 5 21 21 1 5
2015-2016
Maths
Phys
Chem
School
2013-2014 2014-20152011-2012 2012-2013
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In general we recruit a lower percentage of female Foundation students than the national benchmark. This may be related to the higher attainment of girls at A-level compared to boys in our intake (the average entry tariff for girls is higher in all three departments of the School). Action 4.1: We will review this correlation with the Faculty recruitment team and Carmel College and act to address any short-comings in Foundation recruitment processes identified.
(ii) Numbers of undergraduate students by gender
Full- and part-time by programme. Provide data on course applications, offers, and acceptance rates, and degree attainment by gender.
A number of actions were taken with respect to our Bronze action plan (Actions 1ii, 3i and 3ii: balanced representation of staff in Applicant Visit (Discovery) days and Action 1v covering childcare costs for staff and PGR students involved in Applicant Discovery days). We have also ensured our promotional material has appropriate gender representation (Action 1iii), emphasises female role models. Our website and that of Liverpool Women in Science and Engineering (LivWISE, see Section 7, p.70) has profiles of female academic and research staff, including movies.
Table 4.2: UG numbers for the past five years.
We turn to the data to assess the impact of these actions. Table 4.2 shows numbers of undergraduate students.
In general the number of part-time students is small. We have combined both full-time and part-time numbers to compare with bench-mark data in Fig. 4.2. For Chemistry and Physics, the percentage of female students is close to or at the HESA benchmark data. For Mathematical Sciences, the proportion of female students is around 47%, which exceeds the HESA national benchmark of 38%. (For HEU it is 42%, and for cohorts of students coming into second year from our partner in China, Xi’an Jiaotong Liverpool University (XJTLU) it is 51%).
M F % F M F % F M F % F M F % F M F % F
FT 779 537 41 948 625 40 1063 731 41 1116 770 41 1093 686 39
PT 34 14 29 43 20 32 59 22 27 62 19 23 56 31 36
Total 813 551 40 991 645 39 1122 753 40 1178 789 40 1149 717 38
FT 187 135 42 188 134 42 210 127 38 225 142 39 245 170 41
PT 10 7 41 16 9 36 18 10 36 15 8 35 12 8 40
Total 197 142 42 204 143 41 228 137 38 240 150 38 257 178 41
FT 386 344 47 500 425 46 567 534 49 614 553 47 603 462 43
PT 11 4 27 19 8 30 27 10 27 31 10 24 30 22 42
Total 397 348 47 519 433 45 594 544 48 645 563 47 633 484 43
FT 206 58 22 260 66 20 286 70 20 277 75 21 245 54 18
PT 13 3 19 8 3 27 14 2 13 16 1 6 14 1 7
Total 219 61 22 268 69 20 300 72 19 293 76 21 259 55 18
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016
School
Chem
Maths
Phys
A
20
Overall therefore we conclude that our actions have had some successes in terms of student numbers, but we are not seeing dramatic improvements in recruiting female students. We are recruiting at above national benchmarks in Mathematics and while we are around the benchmarks for both Chemistry and Physics our ambition is to exceed them. Action 4.2 Work with the Professional Bodies (Institute of Physics, Royal Society of Chemistry, London Mathematical Society) to develop innovative approaches to attracting female students. Turning to our admissions procedures themselves, Table 4.3 shows admissions data for the past 5 years.
Table 4.3: UG applications, offers and admissions by gender and by year.
M F % F M F % F M F % F M F % F M F % F
Applications 1709 1006 37 1941 1020 34 2122 1164 35 1916 1145 37 1803 1132 39
Offers 1546 880 36 1734 1004 37 1803 1102 38 1705 1085 39
Admissions 308 212 41 445 279 39 460 324 41 376 290 44 418 281 40
Applications 532 286 35 441 217 33 429 261 38 440 304 41 391 342 47
Offers 348 189 35 347 211 38 412 287 41 371 322 46
Admissions 61 34 36 78 42 35 84 50 37 75 54 42 84 71 46
Applications 744 617 45 938 648 41 989 728 42 1091 728 40 1109 688 38
Offers 762 567 43 818 647 44 1045 710 40 1063 666 39
Admissions 172 158 48 254 216 46 265 254 49 250 218 47 286 197 41
Applications 433 103 19 562 155 22 704 175 20 385 113 23 303 102 25
Offers 436 124 22 569 146 20 346 105 23 271 97 26
Admissions 75 20 21 113 21 16 111 20 15 51 18 26 48 13 21
2011-2012 2012-2013 2013-2014 2014/2015 2015/2016
School
Chem
Maths
Phys
Figure 4.2: Numbers (in white) and percentage (vertical axis) (FT+PT) UG students by gender for the past five years. HESA data are for 2014/15.
21
In Fig. 4.3 we plot this data. In general, although there are some fluctuations, the three categories track each other closely, indicating that there is no built-in bias in our procedures.
(iii) Degree attainment by Gender
We were concerned at possible underachievement in Physics in our Bronze application and investigated this under Actions 2iv and 4. Helen Vaughan led engagements with students (focus groups and interviews). We concluded that these differences are not statistically significant.
This analysis is borne out by more recent data. Degree attainment by gender is presented in Table 4.4 for the past five years. On the whole in the School, female students outperform their male counterparts. For example the percentages of female students achieving 1st class, and combined 1st class and 2(i) degrees is shown in Fig. 4.5. For each department, female students outperform male students in the % achieving 1st class degrees. When we combine 1st and 2(i) class degrees, our Chemistry and Maths female students also outperform their male counter-parts.
Figure 4.3: The percentage of female UG applications, offers and acceptances by subject. No data is available on offers for 2011-12.
A
22
Table 4.4: Data for degree attainment by gender.
Figure 4.5: Breakdown by percentage of gender of 1st class (left) and combined 1st and 2i degree classes (right), from the data in Table 4.4. HESA benchmarks (2014-15) are shown to the right of each plot.
M F M F M F M F M F M F
2010-11 6 24 16 11 9 5 0 1 0 0 31 41
2011-12 9 12 15 16 14 8 8 1 0 0 46 37
2012-13 13 20 19 14 9 7 1 1 1 0 43 42
2013-14 11 12 25 18 15 7 1 1 3 0 55 38
2014-15 15 14 33 17 10 6 1 0 5 0 64 37
2010-11 46 68 59 49 41 28 11 8 5 0 162 153
2011-12 25 55 33 39 34 26 14 8 2 1 108 129
2012-13 55 43 40 35 32 34 7 2 5 2 139 116
2013-14 59 100 84 67 43 31 3 3 9 2 198 203
2014-15 81 121 80 76 60 43 13 11 14 7 248 258
2010-11 11 3 10 3 9 8 2 1 3 0 35 15
2011-12 13 5 11 3 7 2 1 1 0 0 32 11
2012-13 23 5 18 4 14 4 4 2 0 0 59 15
2013-14 22 8 27 5 11 3 2 1 0 0 62 17
2014-15 26 11 27 15 8 2 3 1 5 0 69 29
Total students
Chem
Maths
Phys
1st 2i 2.ii 3rd Pass
23
The HESA numbers are summarised in Table 4.5.
Table 4.5: HESA benchmark data for degree attainment 2014-15.
Nevertheless there is external evidence that attainment gaps in Physics are an international issue (Miyake et al. Science 330 2010 1234). Attainment gaps are often associated with Stereotype Threat (anxiety about becoming a negative stereotype exacerbates poor exam performance).
As part of our Action Plan, Helen Vaughan will lead on a project to investigate attainment in Physics by gender, ethnicity and background and then develop methods to reduce the gap. This forms part of Helen’s Scholarship role and is accounted for in workload assessment. The School will provide the resources needed and Helen will report back to the School’s Equality and Diversity committee by June 2017. Helen will also organise a national meeting on behalf of the Institute of Physics on this topic.
Action 4.3: The School will undertake a project to investigate attainment by gender, ethnicity and background and then develop methods to reduce the gap, and will be nationally leading in this area. This will be part of a wider attempt to understand the effects of intersectionality in our School. (iv) Numbers of men and women on postgraduate taught degrees
Full- and part-time. Provide data on course application, offers and acceptance rates and degree completion rates by gender.
Our bronze action plan did not have specific points related to PGT, as we compared well with benchmarks. This continues to be the case.
Table 4.6 shows data for students on PGT courses for the past five years. PGT in Chemistry started two years ago and the numbers are small.
M F M F
Chem 32% 33% 73% 76%
Maths 37% 39% 70% 75%
Physics 39% 38% 77% 78%
% 1st %( 1st and 2.i)
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Table 4.6: Postgraduate taught student numbers for the past five years.
In Fig. 4.6 we combine FT and PT student numbers and plot the data. The proportion of female Maths and Physics PGT students matches or exceeds the national benchmark figures.
In general the number of part-time students on Mathematical Sciences PGT programmes (Financial Mathematics and Pure Mathematics) are very small. In Physics, the proportion of female students exceeds the national benchmark by about 10% in each of the years we have investigated. The main PGT programme is in Clinical Science (Medical Physics). The majority of students on this programme are part-time health professionals funded by the NHS (Fig. 4.7). This gender trend is consistent with national trends for women in medical physics.
M F % F M F % F M F % F M F % F M F % F
FT 44 48 52 18 10 36 22 16 42 24 17 41 25 16 39
PT 26 17 40 43 27 39 47 31 40 45 30 40 49 28 36
Total 70 65 48 61 37 38 69 47 41 69 47 41 74 44 37
FT 4 4 50 3 0 0
PT 0 0 - 0 0 -
Total 4 4 50 3 0 0
FT 36 45 56 14 10 42 12 9 43 13 11 46 15 11 42
PT 0 1 100 0 1 100 1 0 0 0 1 100 3 1 25
Total 36 46 56 14 11 44 13 9 41 13 12 48 18 12 40
FT 8 3 27 4 0 0 10 7 41 7 2 22 7 5 42
PT 26 16 38 43 26 38 46 31 40 45 29 39 46 27 37
Total 34 19 36 47 26 36 56 38 40 52 31 37 53 32 38
School
Chem
Maths
Phys
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016
Figure 4.6: The percentage of female (FT+PT) PGT for the past five years compared with HESA benchmarks. We have not included a benchmark for Chemistry because of the very low numbers to date.
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Figure 4.7: PGT students in Physics by mode of study and gender for the past three years.
We have also investigated our admissions procedures for PGT students for any evidence of bias. Table 4.7 collates data on PGT admissions for the past five years.
Table 4.7: PGT applications, offers and admissions by gender.
Female percentage data are plotted in Fig. 4.8. These numbers are very small for Chemistry. For both Mathematical Sciences and Physics, the percentage of female offers and admissions are close to or exceed the number of applications. This suggests there is no male bias in the applications procedures.
M F % F M F % F M F % F M F % F M F % F
Applications 312 229 42 294 193 40 280 164 37 292 188 39 238 183 43
Offers 188 148 - 155 118 43 144 85 37 145 118 45 134 110 45
Admissions 68 65 49 40 24 38 38 22 37 37 29 44 42 25 37
Applications 37 35 49 31 33 52
Offers 12 16 57 14 6 30
Admissions 4 4 50 3 0 0
Applications 239 204 46 203 144 41 165 100 38 138 94 41 130 103 44
Offers 139 128 48 112 93 45 92 55 37 86 73 46 82 79 49
Admissions 42 48 53 20 12 38 13 8 38 13 12 48 18 11 38
Applications 73 25 26 91 49 35 115 64 36 117 59 34 77 47 38
Offers 49 20 29 43 25 37 52 30 37 47 29 38 38 25 40
Admissions 26 17 40 20 12 38 25 14 36 20 13 39 21 14 40
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016
School
Chem
Maths
Phys
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(v) Numbers of men and women on postgraduate research degrees
Full- and part-time. Provide data on course application, offers, acceptance and degree completion rates by gender.
We have carried out several actions related to PGR, particularly on visibility of female role
models at UG level and in applications procedures (Action 2).
Table 4.8 shows data for students on PGR degree programmes for the past five years.
Table 4.8: PGR student numbers for the past five years.
The data are plotted in Fig. 4.9. As the number of part-time students is very small, these numbers are combined with full-time students.
M F % F M F % F M F % F M F % F M F % F
FT 133 48 27 139 72 34 171 80 32 177 93 34 167 68 29
PT 6 4 40 6 3 33 6 2 25 3 2 40 5 2 29
Total 139 52 27 145 75 34 177 82 32 180 95 35 172 70 29
FT 48 31 39 49 42 46 67 47 41 76 46 38 76 29 28
PT 2 1 33 2 1 33 2 0 0 0 0 - 0 0 -
Total 50 32 39 51 43 46 69 47 41 76 46 38 76 29 28
FT 37 10 21 38 20 34 42 21 33 39 25 39 38 17 31
PT 1 1 50 1 1 50 2 1 33 0 1 100 0 0 -
Total 38 11 22 39 21 35 44 22 33 39 26 40 38 17 31
FT 48 7 13 52 10 16 62 12 16 62 22 26 53 22 29
PT 3 2 40 3 1 25 2 1 33 3 1 25 5 2 29
Total 51 9 15 55 11 17 64 13 17 65 23 26 58 24 29
School
Chem
Maths
Phys
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016
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Figure 4.8: The percentage of female PGT applications, offers and acceptances by subject. No data is available on offers for 2011-12.
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In general for all areas the data compare well with national benchmark figures in each subject area, though there are fluctuations. In 2015-16 the percentage in chemistry dropped to 28% compared to the HESA benchmark of 40%.
In Physics in 2015-16 the percentage was 29% compared with the HESA percentage of 24%. There is a trend of increasing percentages of female Physics PGR students. This increase in Physics in 2015-16 can be understood by reference to the admissions data in Table 4.9, plotted in Fig. 4.10. In the past two years the conversion rate has been particularly high. We can attribute this in part to the involvement of female role models in the admissions process.
Table 4.9: PGR admissions data by gender.
M F % F M F % F M F % F M F % F M F % F
Applications 266 87 25 253 93 27 217 90 29 216 93 30 176 82 32
Offers 85 37 - 71 41 37 85 34 29 68 33 33 57 33 37
Admissions 55 22 29 57 31 35 59 22 27 51 25 33 54 20 27
Applications 96 51 35 85 39 31 82 33 29 55 30 35 68 39 36
Offers 27 23 46 22 21 49 36 12 25 29 11 28 31 15 33
Admissions 19 15 44 18 16 47 29 10 26 19 7 27 31 8 21
Applications 81 19 19 63 30 32 63 30 32 60 31 34 45 18 29
Offers 28 9 24 22 11 33 26 14 35 15 10 40 10 7 41
Admissions 13 5 28 16 8 33 12 7 37 13 6 32 8 3 27
Applications 89 17 16 105 24 19 72 27 27 101 32 24 63 25 28
Offers 30 5 14 27 9 25 23 8 26 24 12 33 16 11 41
Admissions 23 2 8 23 7 23 18 5 22 19 12 39 15 9 38
School
Chem
Maths
Phys
2011-2012 2012-2013 2013-2014 2014-2015 2015-2016
Figure 4.9: The percentage of female (FT+PT) PGR for the past five years. HESA data are for (2014-15).
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The dip in conversion in both Chemistry and Mathematical Sciences in 2015-16 is a cause for concern.
Action 4.4: We will redouble recruitment efforts to rectify this dip, ensuring awareness of unconscious bias and drawing on good practice in Physics.
(vi) Progression pipeline between undergraduate and postgraduate student levels
Identify and comment on any issues in the pipeline between undergraduate and postgraduate degrees.
The School has addressed this pipeline in a number of ways. These include:
Several staff and PGR members have been involved in outreach activities to schools and other public lectures, e.g. Café Scientifique, talking about their experiences doing a PhD.
Three female undergraduate students were financially supported to attend the London Mathematical Society Women in Mathematics Day in April 2015.
Figure 4.10: The percentage of female PGR applications, offers and acceptances by subject for the past five years. No data were recorded for offers in 2011-12.
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A trip was organised in July 2016 for 16 sixth-form female physics students to the European Synchrotron Radiation Facility in Grenoble. The aim was to change perceptions of students about scientific careers. One participant commented on Twitter “I thoroughly enjoyed my time in France on the XMAS trip. It was an enlightening and eye-opening experience”.
In December 2015 female PhD students from across the School discussed their experiences of PhD work and research careers with UG students. The event was very well received with over 60 attendees.
We supported eight undergraduate students to attend the Oxford Women in Physics Conference (2015). Some of them have now continued with us as post-graduates. Action 4.5: We will put in place resources to make the actions described above into annual events. Below we plot percentage of females for the past five years by level of study (BSc., Masters, PhD).
Participants on the Grenoble trip.
Female PGR careers event (Dec. 2015).
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Figure 4.11: Percentage of female students at each level of study.
The data in Fig. 4.11 show a mixed picture in terms of a pipeline of students progressing to PhD, with the % of female candidates tailing off in Chemistry and Maths. In Physics, there is definite evidence of improvement, which we believe is related to the Actions described above. Finally, we wish to further to fully understand our student body, with reference to several E&D aspects of the student population: age profiles, ethnicity, family situation, widening participation status etc. This will position us to make future informed decisions on key focus areas. Action 4.6: Working with University Central Services (Widening Participation and Student Recruitment), we will undertake a project to understand our student body in greater detail in terms of E&D factors and intersectionality.
4.2. Academic and research staff data (i) Academic staff by grade, contract function and gender: research-only, teaching and
research or teaching-only
Look at the career pipeline and comment on and explain any differences between
men and women. Identify any gender issues in the pipeline at particular grades/job type/academic contract type.
We have carried out measures under Action 5 of our Bronze action plan to attract and recruit female staff including:
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Advertising all appointments through a number of women’s networks, both general
(e.g. LivWISE, see p.70) and subject specific (e.g. UK Women in Mathematics Network). (5ii)
Advertising positions with the possibility of flexible working, to attract candidates who
might want to combine the role with caring responsibilities (discussion to take place after the selection process) (5iii)
Ensuring female representation on all long-listing, short-listing and interview panels (5iv)
Other measures taken under Action 5 are shown in our annotated Bronze action.
Tables 4.10, 4.11 and 4.12 collate data for numbers of Teaching and Scholarship, Research, and Teaching and Research staff. Data are also included for confirmed new appointments to Teaching and Research and Teaching and Scholarship roles in 2017.
The data for Teaching and Scholarship staff at Grade 6 include post-graduate demonstrators in Physics in 2016. The numbers of permanent T&S staff are small (4 male and 3 female in 2016, which is <5% of the total School academic population). The percentage of female staff
is 42%, higher than for T&R, but the higher percentage of male staff does not support the notion that female staff are being employed to teach rather than to do research.
Table 4.10: Numbers and %F on T&S Contracts by gender for 2012-2016.
M F % F M F % F M F % F M F % F M F % F
Grade 6 4 1 20 3 4 57 0 0 - 1 1 50 19 6 24
Grade 7 2 1 33 2 1 33 2 0 0 1 0 0 1 0 0
Grade 8 0 4 100 1 3 75 2 4 67 2 3 60 2 2 50
Grade 9 0 0 - 0 0 - 0 0 - 0 0 - 0 1 100
Professorial 0 0 - 0 0 - 0 0 - 0 0 - 1 0 0
Total 6 6 50 6 8 57 4 4 50 4 4 50 23 9 28
Grade 6 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Grade 7 1 1 50 1 1 50 0 0 - 0 0 - 0 0 -
Grade 8 0 3 100 1 3 75 2 4 67 2 3 60 2 2 50
Grade 9 0 0 - 0 0 0 0 0 - 0 0 - 0 1 100
Professorial 0 0 - 0 0 0 0 0 - 0 0 - 1 0 0
Total 1 4 80 2 4 67 2 4 67 2 3 60 3 3 50
Grade 6 4 1 20 2 4 67 0 0 0 0 1 100 0 0 -
Grade 7 1 0 0 1 0 0 1 0 0 1 0 0 1 0 0
Grade 8 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Grade 9 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Professorial 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Total 5 1 17 3 4 57 1 0 0 1 1 50 1 0 0
Grade 6 0 0 - 1 0 - 0 0 - 1 0 0 19 6 24
Grade 7 0 0 - 0 0 - 1 0 - 0 0 - 0 0 -
Grade 8 0 1 100 0 0 - 0 0 - 0 0 - 0 0 -
Grade 9 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Professorial 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Total 0 1 100 1 0 - 1 0 0 1 0 0 19 6 24
Maths
Phys
School
Chem
2012 2013 2014 2015 2016
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Table 4.11: Numbers and %F on Research Contracts by gender for 2012-2016.
Table 4.12: Numbers and %F on Teaching and Research Contracts by gender for 2012-2017.
Fig. 4.12 plots the combined data for Teaching and Research staff and Teaching and Scholarship staff (to match the HESA statistics).
M F % F M F % F M F % F M F % F M F % F
Grade 6 14 4 22 18 3 14 13 4 24 18 4 18 6 1 14
Grade 7 77 20 21 74 24 24 92 32 26 87 36 29 92 31 25
Grade 8 22 3 12 27 4 13 32 4 11 30 4 12 37 4 10
Grade 9 7 0 0 7 0 0 10 0 0 9 1 10 5 1 17
Total 91 24 21 92 27 23 105 36 26 105 40 28 98 32 25
Grade 6 6 2 - 8 0 - 2 1 33 3 0 0 1 0 0
Grade 7 54 14 21 54 20 27 61 26 30 58 27 32 54 23 30
Grade 8 9 1 10 9 1 10 12 1 8 12 1 8 14 1 7
Grade 9 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Total 69 17 20 71 21 23 75 28 27 73 28 28 69 24 26
Grade 6 4 1 20 2 0 0 1 0 0 7 1 13 0 0 -
Grade 7 1 0 0 3 0 0 3 0 0 2 0 0 7 0 0
Grade 8 0 0 - 2 0 - 1 1 50 0 1 100 2 1 33
Grade 9 0 0 - 0 0 - 2 0 0 0 1 100 0 1 100
Total 5 1 17 7 0 0 7 1 13 9 3 25 10 2 17
Grade 6 4 1 20 8 3 27 10 3 23 8 3 27 5 1 17
Grade 7 22 6 21 17 4 19 28 6 18 27 9 25 31 8 21
Grade 8 13 2 13 16 3 16 19 2 10 18 2 10 21 2 9
Grade 9 7 0 0 7 0 - 8 0 0 9 0 0 5 0 0
Total 46 9 16 48 10 17 65 11 14 62 14 18 62 11 15
Chem
2012 2013 2014 2015 2016
School
Maths
Phys
M F % F M F % F M F % F M F % F M F % F M F % F
Grade 7 3 2 40 5 2 29 6 1 14 6 0 0 4 1 20 4 2 33
Grade 8 23 3 12 26 4 13 21 6 22 21 4 16 22 4 15 27 10 27
Grade 9 30 6 17 34 5 13 40 6 13 41 9 18 44 7 14 43 7 14
Professorial 47 3 6 45 4 8 43 4 9 41 4 9 42 6 13 41 6 13
Total 103 14 12 110 15 12 110 17 13 109 17 13 112 18 14 115 25 18
Grade 7 1 0 0 0 0 - 0 0 - 0 0 - 0 0 - 0 0 -
Grade 8 7 1 13 9 1 10 8 1 11 8 2 20 6 2 25 8 5 36
Grade 9 9 1 10 12 1 0 14 1 7 14 1 7 15 0 0 15 0 0
Professorial 15 1 6 14 1 0 13 1 7 14 1 7 13 2 13 13 2 13
Total 32 3 9 35 3 8 35 3 8 36 4 10 34 4 11 36 7 15
Grade 7 1 2 67 3 2 40 3 1 25 3 0 0 1 1 50 1 2 67
Grade 8 9 2 18 10 2 17 8 3 27 8 1 11 12 1 8 13 3 19
Grade 9 10 2 17 11 2 15 13 2 13 14 4 22 15 4 21 15 4 21
Professorial 15 2 12 13 2 13 13 2 13 11 2 15 12 2 14 12 2 14
Total 35 8 19 37 8 18 37 8 18 36 7 16 40 8 17 41 11 21
Grade 7 1 0 0 2 0 0 3 0 0 3 0 0 3 0 0 3 0 0
Grade 8 7 0 0 7 1 13 5 2 29 5 1 17 4 1 20 6 3 29
Grade 9 11 3 21 11 2 15 13 3 19 13 4 24 14 3 18 13 3 19
Professorial 17 0 0 18 1 5 17 1 6 16 1 6 17 2 11 16 2 11
Total 36 3 8 38 4 10 38 6 14 37 6 14 38 6 14 38 8 16
20172012 2013 2014 2015 2016
Maths
Phys
School
Chem
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Fig. 4.12: Numbers of permanent academic staff.
Figs. 4.13-4.15 show numbers of T&R staff, T&S staff and Research staff, by gender and grade. Grades 7 and 8 correspond to lectureship level, grade 9 to senior lecturer and reader and grade 10 to professor.
Figure 4.13: T&R staff by gender and grade.
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The data for T&R Staff show a similar distribution of academic staff by grade in each
department. The data show a positive trend in terms of overall numbers for each department. In Chemistry the lack of female staff at grade 9 is a consequence of a promotion to Professor in 2016.
The numbers of T&S staff are small, and they are not evenly spread across departments. This role and career path was first introduced in 2009 and therefore the majority of staff in in lecturer grades 7 or 8. Chemistry makes more extensive use of this career path.
In line with Action 6, T&S Applicants for promotions have received support in the form of mentoring and advice both from within the School and elsewhere.
This has yielded successes in the first T&S promotions in the Faculty of Nick Greeves to Chair and Gita Sedghi to senior lecturer both in 2015. Promotion is commented on further in Section 5.1 (iii).
Figure 4.14: T&S staff by gender and grade.
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Recruitment Success
Since our Bronze application, 35% of academic T&R staff appointed to the School have been female, compared to 10% in the preceding two years.
We now outperform the sector for Mathematics and Physics; the percentage for Chemistry is at the sector average. Recruitment is discussed further in Section 5.1(i), p. 41.
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Turning to research staff, in line with Action 6, the School has established Grade 8 research
coordinator posts, which gives a career option for PDRAs who want to remain in this role over a longer time-period. They take added responsibility, in co-ordinating the activities of other PDRAs, PGR students and UG project students.
Fig. 4.15 shows numbers of research staff by grade. There is a different profile in each department. Male and female staff at grade 7 correspond to PDRAs. Staff are sometimes appointed at grade 6, and moved to grade 7 once they have passed their PhD viva. The numbers of research-only staff in Mathematics is small compared to both Physics and Chemistry, reflecting the research methodology in the subject. Finally there are more researchers at higher grades in Physics. These are generally staff on long-term grant funded projects.
The increasing numbers of grade 8 researchers indicates that this does indeed provide an attractive career path for research staff.
Fig. 4.16 shows academic pipelines for 2014-1017. At this scale they look somewhat similar.
Figure 4.15: Research staff by gender and grade.
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Figure 4.16: Career pipelines of academics in the School (2014-2017).
In Fig. 4.17 we plot data from 4.16 on an expanded scale which shows that substantial progress is being made. Comparing 2014 with 2017 there are significant increases in female percentages for most grades.
Figure 4.17: Percentage of female permanent (T&R+T&S) Academic Staff 2014 and 2017. Figures for 2017 are based on confirmed appointments (see also Fig. 4.13).
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SILVER APPLICATIONS ONLY
Where relevant, comment on the transition of technical staff to academic roles.
In 2009, career paths were redefined at Liverpool. Previously designated “Experimental officers”, who were employed to provide high-level technical/engineering support, were transferred to Researcher career paths. Technical staff are on the professional services career path. There have been two cases of senior researchers transferring to academic T&R roles since 2008. This requires a competitive interview.
(ii) Academic and research staff by grade on fixed-term, open-ended/permanent and zero-hour contracts by gender
Comment on the proportions of men and women on these contracts. Comment on what is being done to ensure continuity of employment and to address any other issues, including redeployment schemes.
Table 4.13 shows the female percentages of staff (%F/(M+F)) on fixed-term and permanent contacts for the past five years. For simplicity, the data includes both full-time and part-time staff.
Grade 6 fixed employees are PGR students on stipends who also act as demonstrators and or post-graduates giving tutorials. For this activity, they are on zero-hour contracts, as the number of hours they teach (up to a maximum of 6 hours per week) varies considerably. This is an improvement in terms of employment status, as prior to 2012 they were paid as casual workers. There are no academic or research staff on permanent grade 6 contracts.
Table 4.13: Percentage of women on fixed term and permanent academic contracts 2012-2017 (full-time and part-time numbers combined).
Fig. 4.18 compares data for the School to HESA data. For Maths and Physics, the % of female staff on permanent contracts is close to that of the sector. For Chemistry, it lags the sector, but will improve in 2017 with the new appointments discussed (see Fig. 4.13). The low percentage of female fixed-term staff compared to the sector in all three disciplines could have a positive interpretation, where female staff are more likely to have permanency. However a negative interpretation is also possible; we will need to investigate this further. Action 4.7: Investigate low % of women in fixed-term contracts compared to the sector and address the findings.
Fixed Perm. Fixed Perm. Fixed Perm. Fixed Perm. Fixed Perm.
Grade 6 24 0 5 0 32 0 22 0 32 0
Grade 7 20 27 17 25 5 16 27 10 25 13
Grade 8 15 19 2 17 1 24 6 19 14 19
Grade 9 0 14 0 12 1 11 0 16 20 15
Professorial 0 6 0 8 0 9 0 9 0 14
Total 20 15 24 14 39 15 23 14 25 15
2012 2013 2014 2015 2016
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(iii) Academic leavers by grade and gender and full/part-time status
Comment on the reasons academic staff leave the department, any differences by gender and the mechanisms for collecting this data.
Fig. 4.19 shows academic leavers per year compared to HESA data. While the relative percentages of female leavers fluctuate, they are generally lower than the benchmarks. The main group of leavers (typically 75%) are grade 7 research staff (PDRAs) who transition to other roles in academia or to industry. Exit interviews are held where possible to ascertain the reasons for leaving, which are commonly end of contract, career progression and retirement.
Figure 4.19: Leavers by gender (HESA data for 2013-14).
Figure 4.18: The ratio of female/male academic staff (all T&R, T&S, R), and on fixed-term (F) and permanent (P) contracts. HESA data is for 2014.
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(iv) Professional Services staff by role and gender
Fig. 4.20 shows professional services staff by role and gender. As can be seen, the percentage of ratio of female to male staff is close to the benchmark figure from HESA data. Within this framework, there is evidence of a more traditional divide, with female staff occupying 85% of clerical positions and male staff occupying above 80% of technical positions.
As mentioned above, we have made many efforts to raise awareness of E&D and unconscious bias in our appointments procedures, including those in professional services. This picture is changing towards a better balance. The two latest clerical staff to be appointed in 2016 were male. In 2016 4 of 6 technical staff appointed to our Materials Innovation Factory (MIF) are female (see p. 41).
Figure 4.20: Professional services staff by role and gender (HESA data for 2013-14, PMSA: Professional Management and Specialist Administration). (3031/2000)
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5. SUPPORTING AND ADVANCING WOMEN’S CAREERS
Recommended word count: Bronze: 6000 words | Silver: 6500 words
5.1. Key career transition points: academic staff
(i) Recruitment
Break down data by gender and grade for applications to academic posts including shortlisted
candidates, offer and acceptance rates. Comment on how the department’s recruitment
processes ensure that women (and men where there is an underrepresentation in numbers)
are encouraged to apply.
Action 5 of our Bronze award was to revise of appointments policy and procedures. The following Actions were taken starting in summer 2014:
Every appointment advertised with the possibility of flexible working arrangements. Any discussion of flexible working takes place post-offer, to avoid unconscious bias. We have not yet had direct evidence of the influence on this measure on recruitment.
Every interview panel having a minimum of two female members. This has been
implemented, but we have had greater success in recruiting female academic staff when there are more female members. The appointments policy will be to 50% gender balance. The increase in workload will be accounted for in workload models.
At each panel meeting, members are reminded of unconscious bias. Attention is given to long-listing, short-listing and interview processes. While all panel members complete mandatory unconscious bias training, we have begun to circulate Royal Society guidance on unconscious bias also. We will adopt this as standard practice.
Following an all-male short-list for a position in physics in summer 2014, we developed and implemented a practice to encourage each panel to have a least one female candidate on each short-list for interview. We will formalise this practice into policy.
We carried out a gender-blind short-listing for an appointment in Financial Mathematics in 2015. (Action 5v). The short-listing panel was split into two groups; one received applications with names included, and the other group with names redacted. The results of this were neutral, with no discernible bias between the groups, which gave re-assurance about our procedures.
Where we have used recruitment agencies, we have stipulated that effort be put into identifying female candidates (Action 5vi). In the most recent case (Head of Department of Mathematics) despite substantial efforts they were unsuccessful in identifying suitably experienced candidates. We will continue to make this stipulation.
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Tables 5.1 and 5.2 summarise recruitment data by gender and grade. We do not present data for T&S as there has been no external recruitment since 2013. From 2014 Laboratory demonstrators are appointed as T&S staff members at grade 6 on a fixed-term contract.
Table 5.1: Recruitment data for 2011-2015 by gender and grade for applications to Research posts (shortlisting data only from 2014).
Applic. Shortlist Appoint Applic. Shortlist Appoint
Grade 6
Grade 7 459 10 103 5 18 33
Grade 8 90 1 24 0 21 0
Grade 9 0 0 0 0 0 -
TOTAL 549 11 127 5 19 31
Grade 6 102 6 20 1 16 14
Grade 7 1039 19 230 4 18 17
Grade 8 61 1 14 1 19 50
Grade 9 1 1 0 0 0 0
TOTAL 1203 27 264 6 18 18
Grade 6 0 0 0 0 0 -
Grade 7 900 21 280 4 24 16
Grade 8 117 4 25 0 18 0
Grade 9 4 1 0 0 0 0
TOTAL 1021 26 305 4 23 13
Grade 6 52 8 0 24 4 2 32 33 100
Grade 7 638 56 19 225 15 9 26 21 32
Grade 8
Grade 9
TOTAL 690 64 19 249 19 11 27 23 37
Grade 6 46 3 2 21 1 1 31 25 33
Grade 7 582 16 18 220 10 4 27 38 18
Grade 8 29 0 2 12 1 1 29 100 33
Grade 9
TOTAL 657 19 22 253 12 6 28 39 21
2015
2014
2013
2012
2011
Male Female
% Appl.
Female
%
Shortlist
Female
%
Appoint
Female
Case study: Materials Innovation Factory (MIF)
The MIF is a new multi-disciplinary laboratory opening in Feb. 2017. In 2016 we followed the above principles in a major recruitment of academic staff for this facility – the Head of School managed the process. 361 applications were received (64F; 18%); 47 were long-listed (12F; 26%); 28 were short-listed and interviewed (11F, 39%); 9 were appointed (4F, 44%) of which 7 (3F, 43%) appointments were in the School. Although there were not as many female applications as male, the quality was outstanding.
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Table 5.2: Recruitment data for 2011-2015 by gender and grade for applications to T&R posts (shortlisting data only from 2014).
Fig. 5.1 gives a breakdown at School level of this data for both Research and Teaching and Research Staff.
Applic. Shortlist Appoint Applic. Shortlist Appoint
Grade 6
Grade 7 112 3 53 0 32 0
Grade 8 25 1 3 1 11 50
Grade 9
Professorial
TOTAL 137 4 56 1 29 20
Grade 6
Grade 7
Grade 8 95 0 18 2 16 100
Grade 9 26 1 1 0 4 0
Professorial 11 1 0 0 0 -
TOTAL 132 2 19 2 13 50
Grade 6
Grade 7 39 1 12 0 24 0
Grade 8 0 0 0 0 - -
Grade 9 5 1 3 0 38 0
Professorial 2 0 1 0 33 -
TOTAL 44 2 15 0 25 0
Grade 6
Grade 7 14 5 2 2 0 0 13 0 0
Grade 8 30 9 1 11 1 1 27 10 50
Grade 9
Professorial 10 10 1 0 0 0 0 0 0
TOTAL 54 24 4 13 1 1 19 4 20
Grade 6
Grade 7 11 0 0 5 3 1 31 100 100
Grade 8 98 0 1 13 0 0 12 0 0
Grade 9 12 4 1 2 0 0 14 0 0
Professorial 27 0 1 9 0 0 25 0 0
TOTAL 148 4 3 29 3 1 16 43 25
2011
2012
2013
2014
2015
Female % Appl.
Female
%
Shortlist
%
Appoint
Male
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Figure 5.1: % female applications, short-lists and appointments in the school in the last five years, for staff, academic and total staff. No data available for short-listing in 2011-2013
There is substantial evidence that these actions are having major impact. In 2015 there was an increase in the percentage of female applicants short-listed, from typically 20-25% in the previous few years to between 35% and 43% (43% in the case of academic roles). Since our bronze application, 35% of T&R appointments have been female, compared to 10% in the preceding two years.
To consolidate and improve still further, we propose to strengthen our appointments procedures:
Action 5.1: We will aim for 50% women representation on each panel within a year.
Action 5.2: Change appointments policy to ensure circulation of the Royal Society Unconscious Bias document.
Action 5.3: Change appointments policy to require that excellent female candidates are identified and considered at the long-listing and subsequent stages.
Action 5.4: As a matter of policy, stipulate a search for female candidates to external recruitment agencies when employed. (ii) Induction
Describe the induction and support provided to all new academic staff at all levels. Comment on the uptake of this and how its effectiveness is reviewed.
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Action 10 of our Bronze award involved revision and improvement of induction. School induction for all staff (academic and professional services) was consequently revised in 2015 and is now overseen by the School’s Management Services team. Induction involves mentoring of new appointee by a number of experienced staff. A checklist is jointly worked through with the line manager to ensure that key areas are covered. Among the topics covered in departmental induction are: local Health and Safety, security, computing, mentoring, pensions, School services, and completion of the University’s online training modules. These include: Equality and Diversity, Introduction to Health and Safety, Information Security, Bribery Act, Recruitment and Selection, and PDR. Effectiveness of induction is reviewed via PDR reviews, surveys, annual reports from HR on completion rates, and direct feedback to the Management Services staff. As a result of such feedback, processes are refined. For example as a result of questions concerning relocation policy, staff handbooks, available on the School intranet, are now signposted during induction. Our surveys show that for academic staff, the numbers who feel that “the induction process I went through when I joined the School/department was good” rose by 7% (9% M, 2% F) from 24% to 31%. Though these numbers seem low, the number of new staff joining since the last survey (who will have experienced the new induction) is just 21 out of 134.
For research staff, the statement was “when I first started, the information was sufficient”. This has shown a large decrease from 2014 (49% agree) to 2016 (22% agree). This demonstrates that this is an area which needs further attention, despite the recent overhaul of our procedures.
Action 5.5: Tailor induction procedures for research staff to address low satisfaction.
In order to provide induction for PGR students demonstrating in UG laboratories and giving tutorials, the School organised two group induction events in 2015-16. Topics covered include Equality and Diversity and PGR processes. These events will be incorporated into an annual schedule.
Action 5.6: Establish an annual schedule for induction for PGR students.
Induction event for PGR demonstrators.
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(iii) Promotion
Provide data on staff applying for promotion and comment on applications and success rates by gender, grade and full- and part-time status. Comment on how staff are encouraged and supported through the process.
Every member of staff in the School has an annual Professional Development Review (PDR). The PDR reviewer may identify the individual as a potential candidate for promotion. Any individual can also apply for promotion independently.
Following the Bronze award we introduced a scheme whereby recently successfully promoted staff are available to mentor prospective applicants (male and female). (Action 6).
Mentoring sessions were also organised at University level and publicised as detailed in Action 7. Panellists and recently promoted individuals talked about their experiences. Two SAT members took part as mentors.
Additionally, the Head of School in consultation with Heads of Department, has identified and encouraged a number of female candidates, who were subsequently successful.
Table 5.3 collates data on promotion applications and success rates by grade and gender. The percentages in the final columns refer to percentages of the total population e.g. %(F/(M+F)). Fig. 5.2 plots the success rates for each gender.
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Table 5.3: School promotion applications and successes by gender and grade. Percentages in the right-hand columns refer to %(F/(M+F)). We do not have numbers of eligible staff for 2015.
Eligible Applied Success Eligible Applied Success
Grade 6 to 7 0 0 0 0 0 0 - - -
Grade 7 to 8 5 0 0 4 0 0 44 - -
Grade 8 to 9 23 3 2 5 3 3 18 50 60
Grade 9 to Reader 30 4 4 4 1 1 12 20 20
9/Reader to Prof 30 0 0 4 0 0 12 - -
TOTAL 88 7 6 17 4 4 16 36 40
Grade 6 to 7 0 0 0 0 0 0 - - -
Grade 7 to 8 8 4 4 3 2 2 27 33 33
Grade 8 to 9 25 5 4 5 0 0 17 0 0
Grade 9 to Reader 31 1 1 6 0 0 16 0 0
9/Reader to Prof 31 0 0 6 0 0 16 - -
TOTAL 95 10 9 20 2 2 17 17 18
Grade 6 to 7 49 0 0 8 0 0 - - -
Grade 7 to 8 8 1 1 3 2 2 27 67 67
Grade 8 to 9 30 1 1 5 1 0 14 50 0
Grade 9 to Reader 22 4 4 3 1 1 12 20 20
9/Reader to Prof 13 0 0 2 0 0 13 - -
TOTAL 122 6 6 21 4 3 15 40 33
Grade 6 to 7 21 0 0 4 0 0 - - -
Grade 7 to 8 9 0 0 0 0 0 0 - -
Grade 8 to 9 24 2 2 8 3 3 25 60 60
Grade 9 to Reader 23 4 4 2 0 0 8 0 0
9/Reader to Prof 17 1 1 4 0 0 19 - -
TOTAL 94 7 7 18 3 3 16 30 30
Grade 6 to 7 0 0 0 0 - -
Grade 7 to 8 0 0 0 0 - -
Grade 8 to 9 3 3 1 1 25 25
Grade 9 to Reader 1 1 3 3 75 75
9/Reader to Prof 1 1 2 2 67 67
TOTAL 5 5 6 6 55 55
2015
%
Eligible
%
Applied
%
Success
2012
2013
2014
2011
Male Female
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Figure 5.2: Promotion success rates by gender (% Fapplied/Fsuccessful).
Despite these successes, there is evidence from our academic staff survey that understanding of the criteria for promotion is problematic: the number agreeing to the statement: “I understand the processes and criteria to attain promotions and discretionary awards” decreased from 68% to 62%, with M remained at 72%, but F decrease 64% to 60%. This may be due to changes in the application forms which are refined each year following Annual Review.
Action 5.7: Ensure the criteria for promotion are widely disseminated and explained, particularly to female colleagues.
(iv) Department submissions to the Research Excellence Framework (REF)
Provide data on the staff, by gender, submitted to REF versus those that were eligible. Compare this to the data for the Research Assessment Exercise 2008. Comment on any gender imbalances identified.
Promotion Successes
The success of our actions is evidenced by the proportion of female applications (e.g. in 2015, 55% of applications were female) and by their successes (100% of female applicants were successful in both 2014 and 2015) and also by the results of the academic staff survey to the question “I have been encouraged and supported to apply for appointments, promotions and discretionary awards” where the percentage of female staff who agree increased from 72% to 80%.
The number of female Chairs has increased from 4 to 6 (50%), with the promotions of Helen Aspinall (Chemistry) and Marielle Chartier (Physics).
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Table 5.4 gives percentages of female staff submitted to REF2014. In RAE2008, the School
submitted 100% of staff. University policy changed for 2014, with units urged to be selective. The overall percentage of female staff in the submission overall %(F/(M+F)) increased from 10% to 12%. However the percentage of female gender returned was 72%, compared with 84% for males. This difference is mirrored at Faculty and University level. The reasons are complex, as all papers submitted were subject to extensive internal review. Unconscious bias in the reviewing process cannot be excluded.
Table 5.4: Submission rates to RAE2008 and REF2014 by gender.
By circulating Royal Society guidelines to panel members, we will ensure that there is awareness of unconscious bias in making decisions on returns for REF2021.
Action 5.8: Internal reading panels will be trained in unconscious bias for REF2021.
SILVER APPLICATIONS ONLY
5.2. Key career transition points: professional and support staff
(i) Induction
Describe the induction and support provided to all new professional and support
staff, at all levels. Comment on the uptake of this and how its effectiveness is
reviewed.
(ii) Promotion
Provide data on staff applying for promotion, and comment on applications and
success rates by gender, grade and full- and part-time status. Comment on how
staff are encouraged and supported through the process.
(i) Induction
The induction framework for Professional Services staff broadly follows that for academic staff described in Section 5.1 above. In addition to generic induction, the line manager identifies any necessary role-specific training. For example, a new member of the
Eligible Submit'd Eligible Submit'd
Male 834 706 777 573 74
Female 350 240 317 207 65
% Female 30 25 29 27
Male 262 250 263 215 82
Female 36 34 50 37 74
% Female 12 12 16 15
Male 108 106 118 99 84
Female 12 12 18 13 72
% Female 10 10 13 12
RAE 2008 REF2014 % of
gender
2014
University
Faculty of Science
and Engineering
School of Physical
Sciences
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Management Services team, Pauline Anderson, shadowed the team leader to gain a full understanding of her role and to meet with relevant colleagues. Induction in the professional services staff survey was addressed through the question “I was
adequately supported by colleagues when I started work in the School/department” 83% of
staff agreed with this statement (75% F, 100% M), and 9% disagreed.
(ii) Promotion
We cannot provide data for applications for promotion as career progression in Professional
Services roles differs from Academic roles. For professional services, progression can be
achieved in two ways:
(a) There is a significant change to an existing role and the role is reassessed
(b) The member of staff is appointed to a role where the responsibilities are increased.
There is considerable scope for such progression both within the School and in the wider
University. Recent examples include:
- Gillian McLaren regraded from G6 to G7 as Research Team leader as her
responsibility has grown (route (a))
- Jane Remmer appointed as Management Services Team lead (G7) from a Research
Support role (G6) (route (b))
Staff are supported with their career development and encouraged to apply for progression.
The Head of School and School Manager arrange mock interviews and review staff
applications. For example Louise Hobson who was at Grade 7 was encouraged to act as
interim School Manager (G8) to cover a maternity leave in another School, and was
subsequently appointed as School Manager in this School.
5.3. Career development: academic staff (i) Training
Describe the training available to staff at all levels in the department. Provide details of uptake by gender and how existing staff are kept up to date with training. How is its effectiveness monitored and developed in response to levels of uptake and evaluation?
Action 12 of our Bronze plan highlighted training opportunities as an area of concern. The School has worked with the University to arrange training programmes for post-doctoral
researchers over the past three years.
These have included May 2015 Training in research leadership – Prof Andy Cooper (Attendees: 42F - 54M) Feb 2016 Proposal refereeing and review - Mock Panel exercise (9F - 23M) April 2016 Applying for a Fellowship (9F - 21M)
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Occasionally staff will request additional bespoke training, for example in 2015 the School
funded Dr. Rebecca Doherty to attend an event “Media Masterclass” given by Dr Maggie Aderin-Pocock and funded a further place on this event in 2016.
In addition we have highlighted training opportunities available to academic staff through the University Organisational Development team. Numbers of staff undergoing university training include:
Faculty Education leadership Programme 2016 (3F, 3M) Management Essentials (2014-2016) (6F, 1M) Research Team Leader (2013-2016) (4F, 8M) Faculty Academic Leadership Programme Alum Event (2016) (3F,4M) Springboard - Development programme for women (2016) 2F University Mentoring Training (2013-2016) (8F, 5M)
Aurora – the Leadership Foundation (2014-2016) (5F) The staff survey showed positive responses to questions regarding training with increases in positive responses to the statements “I have been encouraged to develop new skills and I receive appropriate support and training” (1%) and “Where I have taken up training opportunities, I have found them useful" (11%).
We have also worked with the University to increase the number of places on the “Teaching for Researchers” course from 10 p.a. to 40 p.a. due to increased demand. Our survey of PDRAs indicates a 6% increase in agreement that training opportunities were useful and a 7% increase in those reporting that their supervisors have encouraged them to take up opportunities. On the other hand, awareness of training opportunities was down by 4%, and there was a 7% decrease in those who felt able to take up the identified opportunities.
Action 5.9: Generate more role-specific training for PDRAs, better communication of opportunities and buy-in of supervisors as to its value.
(ii) Appraisal/development review:
Describe current appraisal/development review schemes for staff at all levels, including postdoctoral researchers and provide data on uptake by gender. Provide details of any appraisal/review training offered and the uptake of this, as well as staff feedback about the process.
As mentioned above appraisal and career planning is carried out in the annual Professional Development and Review (PDR) meetings. PDR guidance and online training are provided for staff and reviewers. The topics for discussion in a PDR meeting are the four areas of role, contribution and performance, plans and priorities including progression, and development and support.
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Action 9 in our Bronze action plan was to reinvigorate this system. This has been accomplished by asking our Professional Services Management Services team to take over the organisation of PDR in the School. This has been very effective: the overall School completion rate rose from 74% in 2014 to 85% in 2015; we are on course for 95% completion in 2016. However our surveys reveal a mixed picture concerning the value of the process. For academic Staff there was a 10% increase in those agreeing that the PDR was useful; for researchers, there was a 2% decrease. Action 5.10: The School will work with Faculty to develop a more meaningful PDR format for PDRAs.
(iii) Support given to academic staff for career progression
Comment and reflect on support given to academic staff, especially postdoctoral researchers, to assist in their career progression.
This area has emerged as a key area of activity for the School, mainly thorough the initiative of the post-doc community. As mentioned before, a Researcher forum was established in 2014. Working with the Forum, the School has organised a programme of career development events. These have included:
10th Nov 2015 Start-up stories: becoming an entrepreneur Sept. 2016 “Academia into Industry”, where previous Liverpool PhD graduates gave
talks on their experiences of building careers in industry. This was attended by 30 researchers (40% female).
July-Aug 2016 Small group career coaching for PDRAs. 6 sessions.
One participant commented on the coaching event:
“It was incredibly helpful to hear about other people's feelings/issues about their post doc roles. Being able to relate my own problems to other people in the group who, more often than not, had suffered similar experiences was a huge weight off my chest.”
In mid-2016 the Researcher forum initiated some focus groups to identify areas where further improvements can be made, and these have been captured in a report to Faculty. The Chair
of the Researcher Forum, is also a member of a University Task and Finish group on Researcher Development.
The following is a quote from this report:
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“The School of Physical Sciences was particularly praised for the range of events
put on to support the research development of PDRAs, such as grant writing workshops and support for writing fellowship applications, as well as the support PDRAs received in developing its own network”.
Action 5.11: Make this award an annual recognition event.
The results of our survey of research staff are positive. Those agreeing with the statement “The level of support for career progression...is good” saw a 6% increase overall, (10% for F).
In 2016 we presented our work to EPSRC during a programme team visit. They now wish us to work with them in helping them understand how they can contribute to the development of the researchers they fund. This engagement is an example of how we believe we can achieve a national profile.
Samantha Colosimo introducing the Event organised in Sept. 2016 “Academic to Industry”.
Post-doctoral development award In 2016, under Action 14ii a Post-Doctoral Development award competition was inaugurated. The goal was to develop an independent idea or collaboration. £6k was shared among 3 winners (2M, 1F). The PDRA network commented:
“Recognition events are … highly regarded by PDRAs – one example of good practice is the School of Physical Sciences Research Collaboration Event
which is supported by a pump-priming prize”.
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Action 5.12: Develop connections with EPSRC to share Liverpool good practice in the research
community.
Permanent academic staff have access to several mechanisms to support their career progression. These include the University mentoring scheme, the ECR mentoring scheme, the Centre for Lifelong learning which runs development events and the Organisational Development unit of HR which also runs targeted programmes for both research and teaching. For example, in 2014 a total of 54 opportunities for career development training were communicated to staff. (iv) Support given to students (at any level) for academic career progression
Comment and reflect on support given to students at any level to enable them to make informed decisions about their career (including the transition to a sustainable
academic career).
Undergraduate students are assigned an academic advisor and female students can now choose a female advisor, Action 14. The advisor is their primary point of contact for advice on programme and module choices and exam feedback, but can also provide advice on career options, and arrange appointments for students at the University’s career’s service.
PGR students have access to a very wide range of training opportunities, recently revised and updated through the Liverpool Doctoral College (LDC). This includes careers advice and training; for example all PGRs can now apply for a 15-day placement outside of academia. PGR students also have access to any development workshops run by the School (e.g. see below (v) Applying for Fellowships – Action 14i).
(v) Support offered to those applying for research grant applications
Comment and reflect on support given to staff who apply for funding and what support is offered to those who are unsuccessful.
Mentoring for research grant applications is the responsibility of the Research Cluster leader. Early stage advice is available to any member of academic staff, and often a proposal is read and commented on by several times before submission. For major Fellowship applications, support is also provided by the University’s Research Policy unit. For example, mock panels are organised for RCUK and ERC fellowship applications. The University also operates a Peer Review College when selection of a single University bid to an external call is required.
Support is in general effective; the School is the second most successful in the University. New awards in 2016 totalled £26m. The School has 6 European Research Council Fellowships and
numerous RCUK Fellows.
Unsuccessful grant applicants are encouraged to request feedback from the external organisation, and are mentored by the School research lead (Chris Lucas) and Research Policy where appropriate, on alternative strategies. For example, following an unsuccessful bid to EPSRC for a programme grant in 2014, a team in chemistry worked with the School and central university to improve the bid, which was subsequently successful following resubmission.
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The School has recently established a Research and Impact Sabbatical Policy with an aim of supporting research careers by providing one semester every 5 years free of teaching and administrative duties. This now needs to be implemented in a fair and transparent way, taking into account gender and career-stage considerations.
Action 5.13: Fair and transparent implementation of Research and Impact sabbatical policy.
SILVER APPLICATIONS ONLY
5.4. Career development: professional and support staff
(i) Training
Describe the training available to staff at all levels in the department. Provide details of uptake by gender and how existing staff are kept up to date with training. How is its effectiveness monitored and developed in response to levels of uptake and evaluation?
(ii) Appraisal/development review
Describe current appraisal/development review schemes for professional and support staff at all levels and provide data on uptake by gender. Provide details of any appraisal/review training offered and the uptake of this, as well as staff feedback about the process.
(iii) Support given to professional and support staff for career progression
Comment and reflect on support given to professional and support staff
to assist in their career progression.
(i) Training
The University’s HR department offer a comprehensive package of training opportunities to enable a member of staff to reach their full potential. This comes in the form of training courses, mentoring, a professional development toolkit and “how to” guides. In addition the School encourages staff to attend courses that may be specific to their roles, for example the Student Experience Team attend occasional workshops on Student Mental Health awareness. As well as a development opportunity for the member of staff, it also assists them in their role. The University also has a number of on-line training modules, e.g. Equality and Diversity (85% uptake in the School in 2016) and Information Security (60% uptake in 2016). However while such support has been available, it has largely been taken up on the initiative of the individual member of staff. Action 5.14a: The School will make one training or development engagement a year an expectation for professional services staff over the next three years.
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(ii) Appraisal/Development review
All staff have an annual PDR where the member of staff and their line manager discuss and
plan for development or support in the coming year. PDR reviewers undertake compulsory
online training and may seek advice from their line manager as appropriate. In our survey,
53% of staff agree their PDR was useful, 31% neutral and 16% disagreed. The uptake in 2016
to date is 93% with no discernible gender difference. Staff can also discuss the possibility of
an additional increment or an Exceptional Performance Award.
Action 5.14b: The School will undertake a task and finish project to understand and address the relatively low satisfaction rate of 51%.
Table 5.5 shows data for awards for the past three years. The low numbers reflect stringent
University criteria for these awards.
Awarded ECA Awarded AI/CP
Female Male Female Male
2013 2 0 0 0
2014 0 0 0 0
2015 0 0 2 0
Table 5.5: Professional Services staff awarded an Exceptional Contribution Award
(ECA), Additional Increment (AI) or Contribution Point (CP).
(iii) Support given to professional and support staff for career progression.
Professional services staff are encouraged to develop their careers through attendance at development events. This will be made an expectation each year (Action 5.14a). The University HR department has a portfolio of tools that individuals can use to aid personal development. Staff are encouraged to put together a Personal and Professional Development Plan after reflection on their learning and development needs. There is also a large University wide Mentoring and Mentee network, of which 8 female and 3 male staff within the school are mentors. An example of an area of particular success has been in the development of apprentices. 7 apprentices have been employed by the School in the period 2012-2016 (3M, 4F). 4 of the 7 apprentices achieved employment in the University after completion (including 3F of which 2 are employed in the School). Katherine Holland, a workshop apprentice in Chemistry, was University apprentice of the year in 2013.
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5.5. Flexible working and managing career breaks
Note: Present professional and support staff and academic staff data separately
(i) Cover and support for maternity and adoption leave: before leave
Explain what support the department offers to staff before they go on maternity and adoption leave.
Action 19 of our bronze action plan was a number of measures on support for maternity/paternity leave.
The School established a role of flexible working adviser (Kamila Zychaluk) who provides informal advice to anyone in the department on where to find detailed information, and also on how to prepare for maternity and parental leave.
She is consulted by nearly every maternity case and occasionally regarding paternity rights. Anna Slater helped initiate a Parents Network for all university staff where new parents can
seek help and advice.
The School follows University maternity policy, but discussions take place to ensure that detailed arrangements (such as cover, Keep-In-Touch days and contact during leave) are tailored to the circumstances and needs of the individual.
For Professional Services, the cover is normally arranged by advertising the fix-term post either internally or externally, depending on the needs. Individuals are encouraged to discuss their plans for maternity leave and return to work at an early stage for better planning for both the School needs and individual’s career.
(ii) Cover and support for maternity and adoption leave: during leave
Explain what support the department offers to staff during maternity and adoption
leave.
The University provides up to twelve paid keep-in-touch days for staff on maternity leave. The School encourages staff to take up this offer.
In addition to the standard University maternity pay offer, the school has provided additional funds for PDRAs and PhD students whose standard contracts did not include adequate maternity pay. For example, one of the PhD students in Maths department was given 6
Katherine Holland, University Apprentice of the Year 2013
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months’ worth of funding as a living allowance during her maternity leave. Extra funding was
provided for a PDRA in Chemistry to extend her contract as the external funding did not allow for maternity leave. (Action 19)
(iii) Cover and support for maternity and adoption leave: returning to work
Explain what support the department offers to staff on return from maternity or adoption leave. Comment on any funding provided to support returning staff.
The School is committed to flexibility in helping staff to return to work after a period of maternity or adoption leave. The individuals discuss their needs with their line manager and academic staff can request a period of relief from teaching and admin duties after return to work. Professional Services staff are normally expected to return to the same role.
Many members of staff choose to reduce their hours for a period of time after maternity
leave. This is again considered on case-by-case basis and most requests are accepted.
(iv) Maternity return rate
Provide data and comment on the maternity return rate in the department. Data of staff whose contracts are not renewed while on maternity leave should be included in the section along with commentary.
Table 5.6 shows data for maternity leave in the School for the past available five years. The numbers of staff taking maternity leave are small: between 1 and 3 people a year. In the period 2011-2015, one person did not return to work and one person left work within 6 month of returning to work.
Table 5.6: Maternity Leave and returns per calendar year.
N# who
went on
Mat leave
N# off for
Stat Mat
Leave only
N# off for
Stat +
Add Mat
Leave
N# who
returned
to work
N# who
didn't
return to
work
N# still in
work + 6
months
N# still in
work + 12
months
2011 3 2 1 2 1 0 0
2012 2 2 0 2 0 1 1
2013 3 3 0 3 0 3 3
2014 1 1 0 1 0 0 1
2015 3 0 3 3 0 2 0
12 8 4 11 1 6 5
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SILVER APPLICATIONS ONLY Provide data and comment on the proportion of staff remaining in post six, 12 and 18 months after return from maternity leave.
See Table 5.6. Since 2012 the retention has been 100%. The University only provides data for retention up to 12 months, so we cannot comment staff remaining in employment after 18 months.
(v) Paternity, shared parental, adoption, and parental leave uptake
Provide data and comment on the uptake of these types of leave by gender and grade. Comment on what the department does to promote and encourage take-up of paternity leave and shared parental leave.
Table 5.7 presents data for paternity leave in the School by grade.
Table: 5.7 Paternity Leave (Calendar Year). No instances of shared parental, adoption, and parental leave are recorded.
The numbers of people taking paternity leave are very low. All of these periods of leave were taken by staff on either grade 7 or 8. Shared parental leave has only been available for parents of children whose due date was on or after 5th April 2015, and there was no uptake of shared parental leave in 2015. The School newsletter is used to promote these opportunities, which are also discussed in any conversations with our flexible working advisor (see p.56).
(vi) Flexible working
Provide information on the flexible working arrangements available.
Any member of staff can apply for flexible working arrangements. Options include reducing
the number of days, reducing working hours, working from home. Anyone with caring responsibilities can submit request to restrict their teaching timetable to allow for school pick-ups etc.
In the past, the flexible working arrangements had been mostly used by women after returning from a period of maternity leave. However, in recent years there have been several examples of male staff taking advantage of flexible working options e.g. Prof. Lasse Rempe-
Researcher
G7
Researcher
G8
T&R Staff
G8
1
1
2
1 1
2 3 1
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Gillen in Mathematics is working at 0.6 FTE to share caring responsibilities with his partner.
Flexible working arrangements are also used by staff who wish to work part-time for the last few years before their retirement; for example, Prof. Mary Rees has been working at 0.5 FTE in the last 5 years before planned retirement.
The results of our recent survey show that there has been increase of 21% in awareness and appreciation of flexible working options amongst academic staff. For women the increase was 40%.
Our PDRA survey is less positive about flexible working: “I feel I would have full support for flexible working/career breaks” 33 % agree/strongly agree (43 % neutral), down from 47 % in 2014 (37 % neutral). Only 25 % of F PDRAs agree/strongly agree in 2016, down from 52 %.
Action 5.15: Work with the Researcher forum to understand the cause of this decrease, and put in place appropriate actions to address this. For Professional Services, the requests for flexible working need to be balanced with
operational needs. In particular, if the request is to reduce hours, then a part-time
replacement needs to be employed. There are several staff with such arrangements in place.
The Professional Services survey result for the statement “I feel I would have full support for
flexible working from my line manager” is 53% agree, and 19% disagree. The response to the
statement “The School/department offers excellent support for caring or family
responsibilities through flexible working hours and career breaks” is less positive, with 44% of
staff agreeing and 23% disagreeing.
Action 5.16: We will initiate focus groups/feedback mechanisms to understand these
responses and then ensure options for flexible working are clearly understood by staff.
(vii) Transition from part-time back to full-time work after career breaks
Outline what policy and practice exists to support and enable staff who work part-time after a career break to transition back to full-time roles.
Any member of staff who is working part time can apply to return to full-time employment. In many cases, the flexible working arrangement is for a specific period of time only. A recent example is Dr Marielle Chartier, who was working at 0.8 FTE after returning to work from a maternity leave in 2007 and returned to full-time working in 2015. For Professional Services, the requests need to be balanced with operational needs. Thus it may not possible to increase hours in the current role. In such cases the role may be changed to encompass other duties, or the individual may move to a different role.
5.6. Organisation and culture (i) Culture
Demonstrate how the department actively considers gender equality and inclusivity. Provide details of how the Athena SWAN Charter principles have been, and will continue to be, embedded into the culture and workings of the department.
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The School is a founding participant in LivWISE, see p.70. Staff from the School have participated in many LivWISE events, for example in the Annual Christmas lectures.
Wellbeing events for staff and students in the School were organised to coincide with Health & Wellbeing week in May 2016. A wellbeing walk was held during lunch-time and a relaxation hour also took place. Social
events are held in each department, ranging from summer bar-be-ques to winter get-togethers, to Christmas meals. Networking has been addressed under Action 11. Networking opportunities are now offered before each seminar/colloquium/development event. Female staff are also encouraged to attend LivWISE events where further networking opportunities are available. Our surveys provide insight into how our culture has changed over the past couple of years and what remains to be done to improve. Our surveys in general show positive results:
Responses to questions around friendliness were mixed, with a 3% increase in agreement for academic staff, but a 26% decrease for PDRAs and a 7% decrease for PGRs.
These results give a steer that more work needs to be done in developing a friendly culture in
the school particularly among non-academic staff and PhD students. We will work to provide
more opportunities for all staff and PhD students to better understand each other’s role and
foster a better sense of community.
Action 5.17: Provide more opportunity for all staff and PhD students to interact in an informal
setting, through the establishment of School and departmental forums.
(ii) HR policies
Describe how the department monitors the consistency in application of HR policies for equality, dignity at work, bullying, harassment, grievance and disciplinary processes.
Laura Harkness-Brennan presenting at the LivWISE Christmas event in Dec. 2015.
Networking improvement In response to the statement “The level of networking within staffing groups in the
School/department is sufficient” there was an increase in those agreeing of 6% (academic staff), 15% (research staff) and 5% (PGR students). The response to the question “The level of networking between staff groups in the School/department is sufficient” saw increases of 4% (academic staff), 5% (PGRs) and a 2% decrease for PDRAs.
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Describe actions taken to address any identified differences between policy and
practice. Comment on how the department ensures staff with management responsibilities are kept informed and updated on HR polices.
The implementation of HR policies is monitored at University level, and that information is fed back to Schools and departments as appropriate, primarily through the Faculty HR Business Partner. Another significant tool for is the triennial University Staff Survey, which gives an indicator of the perception of how policy is being put into practice. For example, as an outcome of the last survey, we identified Bullying and Harassment as a target area for raising awareness and had an e-mail campaign to bring this to the attention of our staff.
The School also actively encourages staff involvement in University level HR advisory groups. Two of our professional services staff, Joanna Seed and Vicki Reynolds, are Bullying and Harassment advisors. Two members of staff in the School attended a two-day Mental Health First Aid course in September 2015. Any significant changes to HR policies are disseminated
at the monthly University Leadership Forum. For example the introduction of compulsory on-line training was first discussed in this forum in 2014.
(iii) Representation of men and women on committees
Provide data for all department committees broken down by gender and staff type. Identify the most influential committees. Explain how potential committee members are identified and comment on any consideration given to gender equality in the selection of representatives and what the department is doing to address any gender imbalances. Comment on how the issue of ‘committee overload’ is addressed where there are small numbers of women or men.
The Physical Sciences Leadership Team is the central committee in the School. The appointments process has been a mixture of advertisement and invitation. The considerations in selecting people are ability, providing a development opportunity, and gender balance.
Our Leadership team currently has 36% female representation (up from 33% at the time of our Bronze application). We have worked to ensure that women are represented appropriately on departmental committees. (Action 15 of our Bronze award). This is evidenced by women membership of our department committees (see Table 5.8). Generally female membership is greater by percentage than the number of eligible candidates. However in a small number of committees there is still no female representation. We will rectify this within 12 months. Committee overload is addressed through the workload model mechanism and in PDR discussions where ad-hoc committee invitations (appointments panels etc.) can be compensated for. Action 5.18: Ensure there is female representation on all departmental committees.
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Table 5.8: Membership of the School and Departmental Committees (Oct. 2016).
M F %F
Leadership Team 9 5 36%
Senior Leadership Team 4 1 20%
Knowledge Exchange and Impact 6 3 33%
Learning and Teaching 7 2 22%
Research Strategy 5 1 17%T&R + T&S staff 113 21 16%
Executive Group 16 5 24%
Undergraduate recruitment 6 4 40%
Learning and Teaching 8 0 0%
Honours Panel 6 2 25%
Research Committee 12 3 20%T&R + T&S staff 37 7 16%
Executive Committee 10 3 23%
Research Committee 6 2 25%
Learning and Teaching 9 3 25%
Research Working Group 2 2 50%
Curriculum Working Group 5 1 17%
Student Experience Committee 8 3 27%
UG Progress Committee 7 2 22%
Board of Studies 13 8 38%T&R + T&S staff 39 8 17.0
Executive Group 3 0 0%
Research and Impact Board 7 3 30%
Student Experience Committee 4 1 20%
Postgraduate studies 5 1 17%
Learning and Teaching 9 0 0%
REF 6 2 25%
Admissions and Recruitment 4 4 50%T&R + T&S staff 37 6 14.0
Mathematics
Physics
School
Chemistry
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(iv) Participation on influential external committees
How are staff encouraged to participate in other influential external committees and what procedures are in place to encourage women (or men if they are underrepresented) to participate in these committees?
Under Action 8 the School has been proactive in nominating women to influential committees and programmes.
Some examples of successful nominations include:
Prof. Rasmita Raval EPSRC Physical Sciences Strategic Advisory Team Prof. Marielle Chartier Member of the STFC Women in SET Focus Group Prof. Tara Shears Nominated as Faculty of Science and Engineering RCUK Public
Engagement with Research “Champion” Dr. Anna Slater Co-Chair of the National University Research Staff Association Dr Laura Harkness-Brennan University Senate Dr Corina Constantinescu University Senate
Joint Council-Senate committee to recruit the next vice-chancellor.
Under Action 8 we have also encouraged women to apply for leadership programmes.
Five women from Physical Sciences have been nominated by the School and accepted on the Leadership Foundation Aurora programme (Corina Constantinescu, Gita Sedghi, Laura Harkness-Brennan, Marielle Chartier, Carmen Boada-Penas and Anna Slater).
One was funded by the School due to insufficient funding available at University level.
Four women (Rachel Bearon, Anna Pratoussevitch, Corina Constantinescu, and Helen
Aspinall) were nominated to the Faculty-run “Pre-Head of Department” programme in 2015 and 2016. Feedback from this programme has been consistently high.
Increasing engagement The results of our surveys indicate positive progress among staff and PhD students in feeling they may influence decision-making processes and raise issues. There were increases in positive responses to the statement “There are mechanisms present for me to air any issues I have” of 24% (academic staff), and 11% (research staff)”. 56% of professional services staff agreed, with 18% disagreeing. There were also increases in those agreeing to the statement: “I have the opportunity to influence the decision-making processes within the School and/or department” for academic staff (7%), research staff (8%) and PGRs (4%).
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(v) Workload model
Describe any workload allocation model in place and what it includes. Comment on ways in which the model is monitored for gender bias and whether it is taken into account at appraisal/development review and in promotion criteria. Comment on the rotation of responsibilities and if staff consider the model to be transparent and fair.
Action 16 concerned transparency and fairness in workload allocation. The workload models were made transparent in 2014 (Action 16i). In implementing this, the School has evolved towards a unified workload model so that contribution may be compared across departments as well as within each department (Action 16ii). This now takes into account a wide range of activity including outreach work and committee service (Action 16iii, 16iv). Individual circumstances are taken into account in reviewing workload, including allowance for early career researchers, and gender issues. For example, staff returning from maternity leave are given a reduced load to help with the transition to normal activity. The output of the model is interrogated each year to identify the average contribution, and for gender and other forms of bias.
The School did investigate a commercial solution which provided a common framework but decided against this based on expense and estimation of utility. In the meantime, the University has set up a working group to specify and implement a University-wide solution. The Head of School is a member of this group. Consequently the School has volunteered to be one of three participating Schools in a pilot of the new University model in 2017.
Action 5.19: The School will pilot the next University model (2017 academic year) and fully implement when available (2018 academic year).
(vi) Timing of departmental meetings and social gatherings
Describe the consideration given to those with caring responsibilities and part-time staff around the timing of departmental meetings and social gatherings.
Core teaching hours are between 09.00 and 17.00 Monday to Friday. These are the hours which are time-tabled during semester through the University’s centralised time-tabling system. However before time-tabling each year individuals are contacted to assess individual requirements which can then be accommodated. This may include restricted hours (10.00-16.00) to allow for family-related activities. It also takes into account individuals working on a part-time basis, (e.g. Rachel Bearon, Senior Lecturer, Mathematics, 0.8 FTE; Kamila Zychaluk, Lecturer, Mathematics, 0.8 FTE; Lasse Rempe-Gillen, Professor, Mathematics, 0.6 FTE).
Action 17 from our Bronze award was scheduling of meetings appropriately. We have adopted guidelines for timetabling of business meetings in the 10.00-16.00 window.
Mathematics and Physics staff meetings were previously held at 4pm slots; this has now been changed. Physics meetings are 1st Wednesday of each month at 2pm, and Mathematics
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meetings are at 1pm on Wednesdays. Chemistry meetings are held at lunchtimes. Seminar programmes are now also held with the 10am-4pm window.
Social gatherings are nearly always time-tabled during the working day. These include pre-seminar socials, coffee and doughnuts in mathematics at 11am on Wednesdays, informal morning coffee in each department and departmental afternoon barbeques.
(vii) Visibility of role models
Describe how the institution builds gender equality into organisation of events. Comment on the gender balance of speakers and chairpersons in seminars, workshops and other relevant activities. Comment on publicity materials, including the department’s website and images used.
The School has worked to ensure that students at all levels experience female role models
(Actions 2i, 2ii, 2iii, 2v). Female role roles are highlighted in all three disciplines on the Liverpool Women in Science and Engineering Website, and female students are given the option to choose a female academic advisor (Action 13).
As a very visible female role model in Physics, Laura Harkness-Brennan has built a research group of 6 postgraduate students, including 4 female PGRs.
Celebrating Success The School hosted an event “Celebration of Women in the Physical Sciences” in
November 2014 where Prof. Mary Rees (FRS, Maths), Prof. Tara Shears (Physics) and Prof. Rasmita Raval (Chemistry) spoke about their careers and experiences.
Dr Laura Harkness-Brennan (Physics) was nominated for the Women of the Future
Awards in the “Science” category in 2015. This is a prestigious national competition. Laura was short-listed and subsequently “highly-commended”. The story was covered in University news and in school and departmental newsletters.
Dr Anna Slater (Chemistry) was nominated for University’s “Celebrating Success” awards in the category “Enhancing University Life”. Anna was short-listed and
attended the awards dinner hosted by the Guild of Students.
The School nominated Dame Athene Donald (Cambridge Physics) for an Honorary Doctorate in 2015 and she spoke at the Graduation ceremony. She will return to give a seminar in 2017.
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Action 18 for our Bronze award targeted a lack of female
speakers in our seminar programmes. The Head of School contacts all seminar organisers each year encouraging balanced seminar speaker lists and offering extra funding to bring in speakers from beyond our usual UK catchment area. This has had direct impact: for example our Flagship annual Barkla lecture in Mathematical Physics (previously given by male speakers including 4 Nobel Prize winners) was given in 2015 by Prof. Katherine Freese from Nordita in Stockholm.
Fig. 5.3 below gives the numbers of male and female speakers in our Fröhlich lecture series, our main Physics department colloquium programme. The upturn in percentage of female speakers from 2014 onwards is direct evidence of the impact of Athena SWAN.
Fig: 5.3 Numbers and % of female Fröhlich lecture speakers in Physics, with an attendance of 50-100 per lecture.
(viii) Outreach activities
Provide data on the staff and students from the department involved in outreach and engagement activities by gender and grade. How is staff and student contribution to outreach and engagement activities formally recognised? Comment on the participant uptake of these activities by gender.
The School has a successful Outreach Programme. Table 5.7 shows the number of young people who have been engaged with. Outreach is primarily aimed at Schools in the North-West, and involves teams visiting schools and hosting schools on campus, with our Central Teaching Laboratory as a base.
Dr. Laura Harkness-Brennan attending “Women of the Future” awards in Nov. 2015.
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Table 5.7: Numbers of young people engaged in Outreach.
In Action 1iv we committed to continue to run outreach events for female students. We have done this. For example a girls in STEM event took place in February 2016 for 20 sixth-form girls. A trip for female students to the European Synchrotron took place in 2016 (discussed in section 4 above).
The Outreach team takes particular care to try to ensure that they are made aware of any special requirements of pupils or staff attending events. The team also works in low income and widening participation neighbourhoods.
Helen Aspinall (Chemistry) is the lead for Outreach on the Physical Sciences Leadership Team. She coordinates strategy and activities across the three departments in the School.
For historical reasons, the academic involvement in Outreach teams in each subject area are not well-balanced by gender. In Chemistry, academic involvement is nearly entirely female, and in Mathematics, it is entirely male. This is counter-balanced to some extent by the
presence of well-mixed UG students on these activities. However we consider that Action 1ii of our Bronze action plan has not been completed.
Action 5.20: Achieve a better gender balance in academic input to school’s outreach.
In Public Engagement, Tara Shears of the Physics Department has been supported in terms of time and travel resource to become an internationally recognized spokesperson for particle physics. Her activities formed the basis of an impact case study in REF2014 and was the most highly rated case study in the Physics submission.
(6431/6500)
M F %FM
academic
F
academic
M non-
academic
F non-
academic UG students
Chemistry 760 792 50.1 5 95 0 0 47
Maths 5492 5762 51.2 2.8 0 97.2 0 11.3
Physics1613 1520 48.5 16 7.5 20 17 65
Presenter information/% of audienceAttendees
Prof. Tara Shears presents a TEDx talk “Why antimatter matters” in Aug. 2014.
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SILVER APPLICATIONS ONLY
6. CASE STUDIES: IMPACT ON INDIVIDUALS
Recommended word count: Silver 1000 words
Two individuals working in the department should describe how the
department’s activities have benefitted them.
The subject of one of these case studies should be a member of the self-
assessment team.
The second case study should be related to someone else in the department.
More information on case studies is available in the awards handbook.
Dr Anna Slater
I joined the Department of Chemistry as a postdoctoral research associate in March 2013 on a 2 year fixed-term contract, which was extended to nearly 4 years to cover maternity leave. During this time, I applied for several small travel and pump-prime grants, all of which were successful. The School has been very supportive of my efforts to establish independence, giving me the time and support to draft applications and carry out research related to, but distinct from, my PI’s research. These activities have been invaluable in building up my track record, culminating in my successful application for both a Royal Society-EPSRC Dorothy Hodgkin Fellowship (Dec 2016) and a lectureship within the School’s Materials Innovation Factory, which I will hold as a proleptic appointment.
When I arrived, there was no forum for postdoctoral researchers within the School. With the support of the School and other research staff, I established the Chemistry Postdoctoral Forum, which has been able to affect real change in the way researchers are supported, heard, and perceived within the department. Without the prominent verbal and financial support from the School, particularly Professors Ronan McGrath and Andrew Hodgson, the forum would not exist. The forum has now expanded to be the School of Physical Sciences Researcher Forum, which assists in developing training activities, holds career development events, and sends a representative to Leadership Team meetings. For my part in the development of the forum and the University Parents’ Network, I was nominated by Ronan for the University’s Celebrating Success Awards 2015, and was shortlisted and highly commended for ‘Improving University Life’. This recognition is rewarding both personally and professionally.
Ben, Imogen and Anna
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This year, I was encouraged by the School to apply for the Women of the Future Awards, something I never would have done without prompting from my senior colleagues, and was delighted to be shortlisted in the Science category. This is a testament to the supportive atmosphere within the School. Ronan has also supported my application to the Aurora Programme for women in leadership, which I will start in 2017.
My husband is also a postdoctoral researcher within the School; our daughter was born in January 2015. During my pregnancy, my supervisor and the safety team were extremely supportive of my requests to move lab and change duties; for example, my PI asked me to co-author a review paper which was published in Science while I was on leave. On my return to work, I was given access to an office for expressing milk, and took advantage of the nursery facilities on campus. Both my husband and I are able to work flexibly when needed, for example leaving early on Thursday to take our daughter swimming. As my workload changes with my new role, I am confident that our childcare needs will be considered, and that the Head of School strongly believes in supporting staff in my position. Prof. Marielle Chartier
I graduated from the University of Paris-Sud (Orsay) in France and obtained my PhD in Nuclear Physics from the University of Caen in Normandy in 1996. I went on to work for two years as a post-doctoral researcher at the National Superconducting Cyclotron Laboratory of Michigan State University (USA) and returned to France in 1998 where I took up a Lectureship position at the University of Bordeaux.
In 2001, I obtained an EPSRC Advanced Research Fellowship and joined the Physics Department at the University of Liverpool. I have played a leading role in the R3B international collaboration and in particular in the construction of the R3B Silicon Tracker for the new FAIR heavy-ion facility in Darmstadt (Germany), for which I was the Principal Investigator of a £2 million STFC grant.
When I am not working, I am rather busy with my family, looking after my two sons, Sébastien (nearly 10 years old) and Philippe (7years old) with my husband who is also my colleague and collaborator, working at STFC Daresbury Laboratory. I was the first member of academic staff to take maternity leave, and subsequently work part-time, in the history of the Physics Department. My decision to work part-time during 2007-2014 was supported by the Department and School which enabled me to have a better work-life balance while my children were little.
In 2013 I took a sharp turn in my research career and joined the ALICE experiment at CERN (Geneva, Switzerland), one of the four main experiments of the Large Hadron Collider, to drive the Physics Department into a new area of high-energy nuclear physics research. The focus of my group’s activity over the next decade or so will be the full exploitation of the LHC collider for such studies with the ALICE experiment. Over the next five years I will also oversee as
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Principal Investigator the construction of a new STFC-funded £1.8 million upgrade of the ALICE Silicon Inner Tracking System.
I returned to full-time work once my children were both at primary school. The Department also ensured over these years that my teaching duties were commensurate with my working hours and research responsibilities (and their associated administrative responsibilities), which enabled me to continue and develop my research and career. I was promoted to a personal chair in 2015.
Over the last few years I have obviously become increasingly aware of my ‘role model’ status within the Department and School, being one of only 2 female Professors in the Physics Department (and also one of only 2 female Professors of Nuclear Physics nationally) and in another minority amongst the female Professors of the School as a mother. Beneath the surface of this successful picture, there have been hurdles and difficulties, and therefore I have been able to contribute to the Athena SWAN silver application from my own experiences. (963/1000)
7. FURTHER INFORMATION
Recommended word count: Bronze: 500 words | Silver: 500 words
Please comment here on any other elements that are relevant to the application.
Juno
In parallel with participation with the School Athena SWAN process, the Department of Physics Institute of Physics Juno Supporter Status was renewed in July 2015. The Juno project aims to address the under-representation of women in university physics. The Juno Committee aims to apply for the Juno Practitioner award in April 2017. The Departmental Juno leads are members of the School’s E&D committee and have been involved in the preparation of the Athena SWAN application.
LivWISE
LivWISE is the Liverpool Women in Science and Engineering group. The School works closely with LivWISE in joint events, in dissemination of opportunities and in networking.
(103/500)
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8. ACTION PLAN
The action plan should present prioritised actions to address the issues identified in this application.
Please present the action plan in the form of a table. For each action define an appropriate
success/outcome measure, identify the person/position(s) responsible for the action, and timescales
for completion.
The plan should cover current initiatives and your aspirations for the next four years. Actions, and
their measures of success, should be Specific, Measurable, Achievable, Relevant and Time-bound
(SMART).
See the awards handbook for an example template for an action plan.
Action Plan
Our action plan presents key objectives in the following areas:
1. To initiate beacon activities at local, national and international level (1-3)
2. To improve the working environment in the School(4-7)
3. To increase proportion of female academic staff (8-11)
4. To enhance the career journey for academic and professional services staff (16-22)
5. To increase the proportion of female UG and PGR students (23-27)
See appendix for:
Silver action plan
Bronze award action plan (with progress log)
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This guide was published in May 2015. ©Equality Challenge Unit May 2015.
Athena SWAN is a community trademark registered to Equality Challenge Unit: 011132057.
Information contained in this publication is for the use of Athena SWAN Charter member
institutions only. Use of this publication and its contents for any other purpose, including copying
information in whole or in part, is prohibited. Alternative formats are available: [email protected]
Page 1/5
Physical Science Silver award Action Plan
Start End
1 5.12 Ambition to be
sector-leading
Initial engagement with
EPSRC regarding School
measures for PDRA
development
Further engagement with
EPSRC to influence their
policies and strategies
Now 2020 HoS, Chair of
Researcher Forum
National recognition
as a lead in this area
2 4.2 Aspiration to be
sector leading in
% F UG students
Admissions procedures
(open and discovery
days) revamped
Work with Professional
Bodies to develop
innovative practices
2017 2020 Admissions leads in
each department
Exceed the sector in
%F UG students
3 4.3 Attainment gaps
in achievement in
Physics
Local focus groups and
interviews
working with Institute of
Physics, investigate effects
of intersectionality in
attainment
Mar. 2017 Sept. 2017 Helen Vaughan Published report on
attainment gaps at
local and national
level
4 3.1 Support for the
wider Athena
SWAN agenda;
draw on
international
good practice
Reviews of internal
applications,
involvement in AS panels
More systematic support
of other applicants
internally and externally
Now 2020 E&D team Local and wider
recognition of the
School as a lead in
this area
TimeframeText
Ref.Rationale Action already taken Further Action planned Person Responsible Outcome measure
Action
Number
Beacon Activities
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5 5.17 Low satisfaction
with sense of
community in the
School
Existing networking
opportunities
Initiate School forum
events with networking
opportunities
Mar-17 Mar-18 HoS and School
Manager
20% higher
satisfaction with level
of respect and
community
6 5.18 Lack of females
staff on
departmental
committees
Departments
encouraged to consider
gender balance
Require female
representation on all
School and Dept.
committees
Now Dec. 2017 HoS, HoDs Reasonable gender
balance on all major
committees
7 5.19 School workload
models imperfect
Workload models made
transparent and
converging
Input to University
workload model
development
Begun Dec. 2019 University workload
model taskforce, HoS
University workload
model established
8 5.20 Gender balance
on academic staff
on outreach
teams unequal
UG students assisting are
gender balanced
Academic staff involved
are gender balanced
Jan. 2017 Dec. 2018 School Outreach lead Gender -balance in
outreach teams
9 5.1 Unequal gender
representation
on appointments
panels
Two women on each
panel minimum
Move to policy of 50%
women on panels
Now Mar. 2017 HoS Policy of equal
representation on
appointments panels
in place
10 5.2 Unconscious bias
in panels
Unconscious bias
training
Policy to use Royal Society
Unconscious Bias
guidelines before each
panel
Now Mar. 2017 HoS Greater awareness of
unconscious bias
measured via surveys
Key Transition points: appointments and promotions
Culture, communication and organisation
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11 5.3 Lack of female
candidates
Informal guidance to
panels
Policy of formal guidance
to panels that each list
should have female
candidates or an
explanation of why not.
Now Mar. 2017 HoS Growing numbers of
females on long- and
short- lists
12 5.4 Lack of female
candidates
Instructions to
recruitment agencies
Policy of formal guidance
to recruitment agencies on
gender balance of long-
and short- lists
Begun Jan. 2018 HoS Growing numbers of
females on long- and
short- lists from
recruitment agencies
13 4.7 Low numbers of
women in fixed-
term contracts
Data analysis and
comparison to sector
Investigation at
departmental levels, focus
groups
Mar. 2017 Sept. 2017 Ian Bamber Improvement in
statistics wrt HESA
benchmarks
14 5.7 Surveys show lack
of understanding
of promotion
criteria
Circulation by e-mail Annual Workshops and
presentations on
promotion criteria with
particular emphasis on
female colleagues
Jun-17 Jun-18 HoS Annual
communications
schedule in place;
20% increase in
understanding as
measured in surveys
15 5.8 Gender return to
REF2014 unequal
Post-REF2014 analysis Training in unconscious
bias for internal REF
reading panels
2017
reading
cycle
Jul-05 Dept. REF leads Reading programmes
reflect performance
fairly
16 5.13 No sabbatical
policy in place
Sabbatical policy agreed
in all departments
Implementation of
sabbatical policy in all
departments
Jan. 2017 Dec. 2020 HoDs Sabbatical system
running effectively
17 5.5 Low satisfaction
with induction
Induction reviewed by
School Researcher
Forum
Targeted induction
programme for research
staff
Begun Sept. 2017 Faculty Associate PVC
for Research, Chair of
Researcher Forum
10% higher
satisfaction with
induction
Research staff
Academic T&R and T&S staff
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18 5.9 Low satisfaction
with training
opportunities
Programme of training
opportunities
established
More role-specific
training; convince PDRA
supervisors of value of
PDRA training
Jan. 2017 Dec. 2019 School Research lead 10% higher
satisfaction with
training in surveys
19 5.10 Dissatisfaction
with professional
development
review system for
PDRAs
Consultation with
Researcher forum
Hold a Faculty wide
workshop to define the
format and content of the
PDR discussion for PDRAs.
Subsequently work with
HR to implement a
bespoke format for PDRAs
Jan. 2017 Dec. 2019 Chair of Researcher
Forum
20% higher
satisfaction with
training in surveys
20 5.11 Good reception
for post-doctoral
development
award
First year operation Make PDRA development
award annual through the
planning process
Feb. 2017 Jul-17 School Manager Annual event
established
21 5.15 Low satisfaction
with flexible
working support
Appointments
advertised with flexible
working policy
Educate academic
staff/supervisors
concerning rights of
researchers to flexible
working arrangements
Jul-17 Jul-18 HoDs, Co-chairs of
researcher forum
20% higher
satisfaction with
flexible working in
surveys
22 5.16 Low satisfaction
with flexible
working support
Ensure staff understand
flexible working
possibilities
Implement flexible
working on a more wide-
spread basis
Jan. 2017 Jul-18 School Manager 20% higher
satisfaction with
flexible working in
surveys
23 5.14
a,b
Training and
development,
PDR of
professional
services staff
Discussions in PDR
process
Expectation of
engagement in training
and development
activities; PDR satisfaction
Begun 2020 School manager and
Team leaders
Higher take-up of
development
opportunities, 20%
increase in staff
survey satisfaction
Professional services staff
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24 4.4 Dip in conversion
to PGR for
Chemistry and
Mathematics
Anecdotal enquiries Focus groups, interviews,
unconscious bias training
for PGR recruiters
Begun Jun-17 School lead for PGR Report on conversion
rates by gender with
recommendations
25 4.5 PhD Outreach
programme
Schools talks and Café
Scientifique
Organise yearly
programme for Schools
and UG
Jan. 2017 Jul-17 School lead for PGR Annual programme in
place
26 5.6 Diversity and
equality
awareness low
for PGRs
Talks by University E&D
officer
System to deliver biannual
workshops for PGRs on
E&D
Begun Jan. 2018 Management Services
team leader
Increased awareness
of D&E issues among
PGRs as measured in
surveys
27 4.6 Lack of
information on
E&D aspects of
our student
cohorts
Initial analysis of
ethnicities for marketing
Project with HR and
Student Services to
understand our student
makeup
Mar-17 Sep-18 Professional services
lead for student
experience
Report on E&D make-
up of our student
populations to inform
future decision-
making
28 4.1 Behind national
benchmark for
female
Foundation
students
None Work with Faculty
recruitment team and
Carmel College to
understand and rectify this
Admissions
cycle 2017-
18
2020
entry
Admissions leads in
each department
Improved percentage
of female Foundation
students
Foundation Students
Undergraduate students
PGT and PGR students
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Bronze Action Plan with Progress Log and page references to Silver award applicationWhat area is being
addressed? (What
data was
What issues have been identified
through data gathering and
consultation?
What actions are being
proposed to address these
issues?
What is the
timescale?
Who is
responsible?
What will success look
like?
Progress log and page number
references to Silver application
1. Undergraduate
male and female
numbers (Figure 3,
Tables 3 and 4)
Chemistry and physics have fallen
below national averages in recent
year; maths exceeds national
average. Need to reverse the
decline and become the sector
leader
i. Brief Outreach teams on
Athena SWAN action plan.
Sep. 2014 HoS, School
E&D team
and School
Outreach
Lead
Achieve national averages
of %female UG students in
all departments in 3 years;
Exceed national averages of
female UG students in all
departments in 6 years
HoS and the School Outreach Lead
agree on representation in
outreach events. (p.66) Outreach
teams briefed.
ii. Ensure gender balanced
role models in Outreach
activities
Sep. 2014 COMPLETED
Male and female members of the
Recruitment Committee organize
Open/Discovery Day activities
(p.19)
50% female undergraduate
helpers in Open/Discovery
activities.
iii. Check promotional
material for appropriate
gender representation
Sep. 2014 COMPLETED
Materials in each area and in
University prospectus have been
checked for gender balance (p. 19)
June 2015: New LivWISE videos
have been added to the School
Athena website.
iv. Continue to run outreach
events for female students in
each subject area.
Sep. 2015 COMPLETED
Regularly organised by outreach
teams of each Department (p. 29)
Theme 1: Addressing gender imbalance in the student body (UG,PGT,PGR)
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v. Ensure continued female
role models in admissions
process (staff and PGR
students), including
childcare costs for female
staff if required.
Ongoing COMPLETED
Childcare costs introduced as of
2014 (p. 19). Website: at least 50%
female role models.
2. Postgraduate
research male and
female numbers and
applications (Figure 5,
Tables 3 and 4)
Chemistry and maths outperform
national benchmarks. Physics
underachieves in female PGR
recruitment; low % of female
applications in physics. Ensure UG
students experience good female
role models:
i. Modules taught (or
sections of modules) by
female role models
3 years HoDs; School
PGR lead
Increase in female PGR
students in physics to
national averages and
maintain numbers in other
areas (3 years)
COMPLETED
Physics target met (p.27)
Female role models advertised on
the LivWiSE website
Staff talks on research activities to
undergraduate students.
ii. Ensure female role models
are involved in the
supervision of UG and PGT
projects
1 year COMPLETED
Implemented in all 3 departments.
Summer research undergraduate
intern programmes led by female
academic.
iii. Encourage female PDRA
and PGR involvement with
female UG students through
a buddy/mentor scheme
1 year COMPLETED
Introduced for the new cohort of
PhD students since September
2015.
iv. Organise physics UG
student survey and focus
groups to better understand
disparities; act on any
findings
1 year COMPLETED
UG survey has been conducted by
a Physics academic together with
the Juno team. (p. 70)
v. Ensure female role models
are presented at PGR open
days
1 year COMPLETED
School PGR lead ensures gender
balance in all PGR recruitment
events.
Page 3 of 10
vi. Promote PhD
opportunities to appropriate
networks
COMPLETED
Embedded in PGR admissions
activity. Opportunities are
promoted through LivWISE
networks and School social media.
(p. 31)
3. Ratio of course
applications to offers
and acceptances - UG
(Table 6, Figure 6)
No bias detected in offers.
Physics has lower admissions
than offers
i. As far as possible female
applicants can request to be
interviewed by female staff,
and made aware of support
networks
1 year HoDs;
Admissions
tutors
Achieve national average in
female recruitment in
Physics and sustain
numbers of females
recruited to other UG
programmes (3 years).
COMPLETED
ECR female Physics academics
involved in Physics Open Days
since June 2015. Better than
national averages in Chem.,
Maths; at national average in
physics (p.19)
ii. Ensure the presence of
female role models on
Discovery days (post-
application visit days).
1 year COMPLETED
In both Chemistry and
Mathematics, the Discovery Day
leads ensure gender balance of
academics present as well as UG
helpers involved.
4. Degree
classifications by
gender (Figure 9)
Lower proportion of females
achieving 1st and 2.1 in physics
i. Organise physics UG
student survey and focus
groups to understand why;
act on any findings
3 years HoD physics Balance in degree
classifications in physics (3
years)
COMPLETED
Female students out-performing
males (p. 22).
5. Academic staff by
grade (Figures 10 and
11)
There is a key bottleneck in the
transition into a first teaching and
research academic position
(grade 7).
Establish a School
recruitment policy to ensure
equality and diversity issues
are addressed. The policy
will include the following:
Immediate HoS Increase in % of female
academic staff at grade 7
and above over current
levels (Table 1) with a goal
of exceeding the national
benchmarks (3 years)
COMPLETED
Key elements of new policy
introduced (May 2015).
Targets exceeded (p. 35, 36)
Theme 2: Addressing gender imbalance in staffing (academic and academic-related)
Page 4 of 10
i. Establishment of an
appointments committee
(with at least 20% female
representation) to ensure all
academic appointments
follow this policy.
Immediate This action discontinued as
inefficient; effort redirected to
unconscious bias training etc.
ii. Advertising all vacancies
to networks of women in
science and engineering
(WISE, IOP Women in
Physics, LMS Women in
Mathematics)
Immediate COMPLETED
Embedded into School recruitment
procedures (p. 31)
iii. Ensuring appropriate
information on support is in
place and advertised
(including maternity cover,
flexible working policy,
mentoring, networks)
6 months COMPLETED
School policy has been adjusted
and a School advisor role has been
introduced (p.56)
iv. Ensuring at least 2
female representatives on
interview panels, and that
short-listing is done by the
entire panel.
6 months In addition, all panel members
required to do recruitment and
selection and equality and
diversity training.
v. A trial of gender blind
shortlisting overseen by
appointments committee
Next
appointmen
ts.
COMPLETED
Trial has been conducted in two
instances - no bias ascertained
(p.40)
vi. Trial involvement of
recruitment agencies to
increase the pool of female
applicants
6 months COMPLETED
Brief to a recruitment agency for
appointing the HoD in
Mathematics. (p. 40)
Page 5 of 10
vii. Diversity and Equality
and unconscious bias
training for all those
involved in recruitment
Immediate COMPLETED
Royal Society guidelines used at
every panel.
Athena SAT underwent the
Unconscious Bias Training. (p. 40)
vii. Introduce exit interviews
to establish areas for
improvement
Immediate COMPLETED
Embedded into HoS procedures
(p.38)
viii. Collect data on the data
on the recruitment process
at all stages from application
to final outcomes, including
information about the
interview panel, through the
HR Core system
On-going New software system introduced
by the University is collecting this
information.
6. Promotion support
(Table 9, Figures 14
and 17)
Lack of advisory opportunities i. The school will offer an
advisory scheme by staff
who have recently
successfully been promoted.
Next Annual
Review
(autumn
2014)
HoS >70% of all staff feel
encouraged and supported
in career progression (2
years)
COMPLETED
University Mentoring Scheme for
promotion to Senior promotions.
Successfully promoted candidates
and members of promotion panels
share their experiences in sessions
organised at the Faculty level (p.
45)
Theme 3: Support for career development
Page 6 of 10
ii. Careers workshops for all
staff
1 year COMPLETED
School briefings have been
introduced for academic
promotions at all levels, including
T&S route (p.34, 45).
University Reader and Personal
Chair mentoring scheme
introduced. (p. 45)
iii. Career progression
discussed in all PDRs
1 year COMPLETED
Embedded in revised PDR scheme
(p.49).7.Mentoring (Survey,
Figures 15 and 23)
Low percentages benefitting from
mentoring; high demand
i. Publicise University
mentoring opportunities
Now E&D team;
HoDs
Proportion of people who
would like a mentor but do
not have one is below 10%
in the staff survey (2 years)
COMPLETED
University Mentor Network
established (p. 45, 52). School
mentoring established (p. 45).
Mentoring scheme for the
promotion process introduced (p.
45)
ii. Formalise mentoring
within the school so that
everyone is given an
opportunity to have a
mentor
1 year COMPLETED
See 7.i.
iii. Training opportunities for
mentors at University and
School level.
1 year COMPLETED
The University of Liverpool Mentor
Network provides multiple training
events.
8. Leadership Lack of influence reported by
women in the staff survey
i. Nominate women to
influential committees and
encourage women to apply
for leadership programmes.
1 year HoS, HoDs No gender difference in
responses to questions
about influence in next
staff survey (2 years).
COMPLETED
Five female academics attended
“Aurora: Women in Leadership
programme” (p. 63).
Page 7 of 10
9. Appraisal system
(Survey, Figure 16)
Low percentages of PDRA and
academic finding appraisal
useful/productive
i. Re-invigorate PDR system
ensure compliance with
University policy on PDR
1 year HoS, HoDs At least 60% PDRAs and
accademics find appraisal
useful in next staff survey
(2 years).
COMPLETED
HoS is now involved in promotion
applications: support, mentoring,
one-to-one discussions prior to
interviews
Also see 6. iii.
10. Induction (Survey
Figure 19)
Low percentage agreeing that
induction was good.
i. Hold focus groups to
discuss induction and
changes
6 months E&D team Positive feedback about the
induction process from
newly appointed staff (at
least 50% satisfaction) (2
years)
COMPLETED
Induction process overhauled and
implemented (p. 43, 44, 47)
ii. Develop and implement
school policy on induction
1 year COMPLETED
Induction process overhauled and
implemented (p. 43, 47)
11. Networking
(Survey, Figure 20)
Poor access to networks and low
percentage of women who feel
they "have a voice".
i. Commit attendance of HoS
and HoDs to forums at least
once a year
1 year HoS, HoDs No gender difference in
responses to questions
about networking in next
staff survey (2 years) ;
access to forums for all
PDRAs and PGRs who want
to have access
COMPLETED
Networking addresses successfully;
increase in satisfaction in all
surveys (p. 60)
ii. Advertise existing
networks (e.g. PDRA forums
and Female Early Career
Research Network) to staff
using emails, meetings and
intranet, during induction
3 months COMPLETED
Parents’ Network, University-wide
support network initiated by the
School (p. 55,67)
Joint Networks info circulated
(LGBT, BAME, Disabled Staff
Network, Female ECR forum,
Parents Network, LivWISE
Network)
Page 8 of 10
12. Training (Survey,
Figure 21 and 22)
Low percentages of PGR and staff
undertaking training
i. Incorporate training as a
priority in supervisor/PDR
discussions
Sept. 2014 HoS, HoDs,
Research
support
officer
10% increase in positive
responses to questions on
training in next staff survey
(2 years)
Online training introduced. Focus
on PDRA training carried forward
to Silver action plan (Action 17)
ii. Enhanced publicity for
training opportunities
3 months COMPLETED
Programme of training events for
academics and researchers
established and advertised (p. 49)
iii. Workload allowance
where training takes place
over an extended period
ongoing See 6. iii.
13. Support for
female students - UG
UG students unaware they can
ask for a female advisor
i. Make students aware of
this possibility
2014 entry HoDs Improved awareness
amongst female students
that they can ask for female
advisors (measured by
student email
questionnaire, 1 year)
Embedded in Senior Tutor
procedures
14. Support for
female PGR students
(Survey Figure 18 and
23)
Career development
opportunities are weak
i. Introduce workshops for
PGR and PDRAs on
Fellowship applications
1 year HoS, HoDs,
School PGR
lead
50% of PDRAs and PGRs
agree that career
development opportunities
are good in the staff survey
(2 years)
COMPLETED
Complementary skills session for
year 3 PGR students. Fellowship
workshops are held for PGR and
PDRAs. Development programme
for researchers with 4 events per
year.(p. 49)
ii. Provide pump-priming for
small grant applications
Sept. 2014 COMPLETED
This has been altered to provide a
pump-priming scheme in support
of PDRAs (p. 52)
Page 9 of 10
iii Mentoring scheme for
PGR students
Oct. 2014
entry
COMPLETED
Induction processes are now set
up at School level for PGR
students.
15. Committee
representation (Table
10)
Lack of transparency in
membership of key committees
i. Revise School and
Department Committee
Terms of Reference to
ensure committee vacancies
are advertised
Jun-14 HoS, HoDs Committee representation
reflects or exceeds the
proportion of female staff
in the school
COMPLETED
Terms of references for School
level committees (PSLT, L&T) have
been revised appropriately.
Vacancies, including Athena roles,
are advertised encouraging female
staff to apply (p.61)
16. Workload model
data; staff survey
Lack of transparency and ability
to check for gender bias
i. Collate, check and publish
on intranet the academic
contribution of each
member of staff using
existing workload models in
each department
April 2014 HoS, HoDs Transparent workload
model across the School
Workload model has been made
available on School intranet. (p.
64)
University workload model in
development - carried forward to
Silver action plan (Action 6)
ii. Development and
publication of a unified
workload model which
allows contribution across
the school to be published
transparently and fairly.
1 year (see 16.i)
No credit given for outreach, or
training activity in workload
model
iii. Incorporate outreach and
training activities in
workload models
1 year HoS, HoDs Appropriate credit for time
spent on outreachCOMPLETED
(p. 61)
Committee overload for female
staff
iv. Ensure committee work
is a factor in workload
models
1 year Fairer representation on
decision-making
committees
COMPLETED
(p. 61)
17.Timetabling - staff
survey
Family-friendly time-tabling
needed
i. Develop a School HR and
Gender Equality Framework
i. Sep. 2014 HoS School business meetings
are scheduled in family
friendly times
COMPLETED
(p. 64)
Theme 4: Culture, Communications and Representation
Page 10 of 10
ii. Incorporate guidelines on
family friendly time-tabling
of business meetings
ii. Sep. 2014 COMPLETED
Family friendly core hours 10.00-
16.00 have been introduced for
meetings, seminars and colloquia
(p.63)
18.Seminars
(Departmental lists)
Lack of female speakers on
seminar programmes
i. Introduce a female speaker
quota of greater than
current staff percentage for
School and departmental
seminar programmes
3 years HoS, HoDs Percentage of women in
seminar programmes is at
least equal to percentage
of female staff
COMPLETED
All seminar and colloquia
organisers have been made aware
(p. 65-66)
19. Maternity leave
and flexible working
policy (Table 11,
Figure 26)
Ad-hoc resourcing of maternity
leave and other flexible leave
cover
Develop a school policy on
maternity and flexible
working support in line with
RCUK guidelines
1 year E&D team,
Leadership
team
School policy and
guidelines in place and
transparent; at least 10%
increase in positive
responses for flexible
working in next staff survey
COMPLETED
21% increase recorded (p. 49).
Academic staff has been
appointed as the School’s
Maternity/paternity advisor. Key
elements introduced (p. 56-59)
20. Induction and
training - % taking
E&D module
Low take-up of equality and
diversity training
i. Raise awareness of the
obligatory Equality and
Diversity Training Module via
email and PDR process
1 year E&D team Achieve 90% completion on
Equality and Diversity
Training Module
COMPLETED
Completion rate has risen from
16% (13.3.2015) to 88.4%
(28/11/2016).
21. Communications -
survey results
Lack of awareness of E&D
policies and content of Athena
SWAN application
i. Pre-submission
consultation events;
communicate survey results
Pre-
submission
E&D team Increase by 10% in positive
responses about Athena
SWAN awareness in next
staff survey.
COMPLETED
Survey targets met (p. 15)
ii. Ongoing communication:
school newsletter
items/lectures/events
including PDRAs, PhDs and
UGs
6 per year COMPLETED
School newsletter has an Athena
SWAN section.
Consultation events hosted in the
school meeting room (p. 14)